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Review ArticleDOI Number : 10.36811/ijho.2021.110023Article Views : 54Article Downloads : 27

Nucleic Acids Aptamer Application in Diagnosis and Therapy of Cancer Based on Cell-SELEX Technology

Alireza Heidari1,2,3,4*, Elena Locci1,2,3 and Silvia Raymond1,2,3

1Faculty of Chemistry, California South University, 14731 Comet St. Irvine, CA 92604, USA
2BioSpectroscopy Core Research Laboratory, California South University, 14731 Comet St. Irvine, CA 92604, USA
3Cancer Research Institute (CRI), California South University, 14731 Comet St. Irvine, CA 92604, USA
4American International Standards Institute, Irvine, CA 3800, USA

*Corresponding Author: Alireza Heidari, Faculty of Chemistry, California South University, 14731 Comet St. Irvine, CA 92604, USA, Email: Scholar.Researcher.Scientist@gmail.com; Alireza.Heidari@calsu.us; Central@aisi-usa.org

Article Information

Aritcle Type: Review Article

Citation: Alireza Heidari, Elena Locci, Silvia Raymond, et al. 2021. Nucleic Acids Aptamer Application in Diagnosis and Therapy of Cancer Based on Cell-SELEX Technology. Int J Hematol Oncol. 4: 594-636.

Copyright: This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Copyright © 2021; Alireza Heidari

Publication history:

Received date: 29 September, 2021
Accepted date: 11 October, 2021
Published date: 13 October, 2021

Abstract

The "labeling" of nucleic acids (cell genetic information such as RNA or DNA) is not a new technology for monitoring them. However, current capabilities do not provide a complete picture of how tumor cells develop. What this platform, known as Clon Mapper, can do that was not possible before, is to go back in time and track how tumor cells change over time. This gives researchers the ability to see which cells "win" over fewer resistant cells, continue to clone themselves, and make the tumor more dangerous. By isolating these cells, researchers can better test which therapies work against them. Monitoring changes over time is the key to successful transmission therapies. Tumor cells adapt and become resistant to therapies, which is why patients can recover but experience a relapse later. This is one of the reasons why cancer treatment is so challenging; we do not have very good methods for early detection of cells sensitive to a drug and measuring their resistance. This resistance is the main cause of treatment failure in many cancer patients. CLL is a low-grade B cancer that is often monitored for months or even years before active treatment is needed. This treatment depends a lot on the patient's close supervision. In this study, Clon Mapper focuses on identifying cells that mimic themselves, the speed at which this process takes place, and its effect on the growth rate of surrounding cells over time. This allows for a more accurate analysis of the cell population and may lead to more customized treatment plans for patients.

Keywords: Cancer; Cells; Tissues; Tumors; Prevention; Prognosis; Diagnosis; Imaging; Screening; Treatment; Management

Introduction

Angiosarcoma is an ultra-thin tumor that usually develops on the skin and is highly invasive. After metastasis, it is usually treated with chemotherapy, but the cancer's response to it is not long-term and angiosarcoma has a high mortality rate. Separate reports of angiosarcoma tumors responding to immunotherapy have been excluded from other clinical trials, but this marks the first prospective immunotherapy trial in the disease. The drug has been tested in 53 groups of rare cancer patients, but testing is still ongoing in 10 of these groups. Other rare cancers that have been successfully treated in the trial include thyroid tumors, metaplastic breast cancer, and neuroendocrine tumors. The trial has so far involved 773 patients and is approaching its ultimate goal of 818 patients. DC testing is supported by the NCI, led by SWOG, and conducted by the National Network of Clinical Trials (NCTN) with funding from the NIH. Outside of DART, the study of angiosarcoma took years to progress. Adding it to DART helped speed up the achievement of these results. During treatment, the size of the tumor shrank in at least six people, three of whom had criteria known as partial response to treatment, and one had complete response criteria. The other two patients had tumors that were stable after starting treatment. Both patients are still being treated for chronic disease. Among five patients with primary facial or scalp disease, three (60%) recovered with treatment. This is a subset of patients who have very little chance of receiving current treatment. Patients with immunosuppressive inhibitors often experience side effects, and the toxicity in this group of patients is comparable to the toxicity seen in other experiments with ipilimumab and nivolumab in sarcoma. Among these patients, 75% reported treatment-related adverse events and 25% reported treatment-related adverse events of grade 3 or higher [1-490].

Results and Discussion

The enzyme APOBEC3A is a vital part of the innate immune system that protects cells from viral infection by causing mutations and prevents viruses from multiplying; APOBEC3A, on the other hand, increases the level of DNA mutations by directly attacking the cancer cell genome, leading to cancer progression, metastasis, and drug resistance. In previous studies, we have shown that APOBEC3A-induced DNA mutations are very common in cancer patients. In fact, we have found that they are up to 80% present in certain types of cancer, such as lung, breast or bladder cancer. The study, entitled Genotoxic stress and viral infection causes transient mutations in APOBEC3A and proinflammatory genes through two distinct pathways, was published in the journal Nature. In this study, researchers transiently adjusted APOBEC3A for viral infection and genotoxic stress caused by chemotherapy drugs. Their work demonstrates how a viral infection triggers a specific innate immune response to activate APOBEC3A expression in human cells and how it is an important step in eliminating the virus; This study also shows how different chemotherapeutic drugs stimulate APOBEC3A, but increase the cancer invasion through a completely different type of immune response that this time triggers mutations. Our results show different methods for cells to regulate APOBEC3A expression to resolve the different types of stresses that a cell may face. By understanding how APOBEC3A-expressing cancer cells and viral infections are regulated, we are ready to take an important step toward developing new therapeutic strategies to combat cancer and new antiviral therapies. Further studies are needed to develop strategies to prevent APOBEC3A-induced DNA mutations in the cancer genome that increase tumor heterogeneity and increase disease progression and resistance to therapies. In the case of viral infections, the next step is to determine whether certain types of mutations previously detected in viruses, such as SARS-Cov-2 (Covid-19), are the result of APOBEC3A activity and affect virus replication in cells.

Conclusion

While cancer vaccines are an antitumor treatment option, they should inhibit postoperative recurrence and metastasis by activating the patient's immune system. Therefore, it is important for scientists to find possible ways to train the patient's immune system to find these tumor cells. One option is to use the tumor tissue to make a vaccine for the patient, but because there is little difference between the tumor antigens and the body proteins, the tumor antigens may be considered "native" by the patient's immune system. Membrane-coated hybrid enzymes offer a new vaccine production strategy that simultaneously introduces antigens and adjuvants to the dendritic cell to stimulate tumor-specific immune responses. In mouse tumor models, the researchers found that the strategy protected the mouse by prolonging the survival of tumor-bearing animals and long-term protection against the challenge of tumor recurrence. Thus, this hybrid membrane-based anti-tumor immune system offers a new opportunity to develop personalized cancer vaccines that could target a wide range of tumors in the future.

Acknowledgment

This study was supported by the Cancer Research Institute (CRI) Project of Scientific Instrument and Equipment Development, the National Natural Science Foundation of the United Sates, the International Joint BioSpectroscopy Core Research Laboratory Program supported by the California South University (CSU), and the Key project supported by the American International Standards Institute (AISI), Irvine, California, USA.

Authors’ Brief Biographies

ijho1017-26_Alireza Heidari

Prof. Dr. Alireza Heidari, Ph.D., D.Sc. is a Full Distinguished Professor and Academic Tenure of Chemistry and also Enrico Fermi Distinguished Chair in Molecular Spectroscopy at California South University (CSU), Irvine, California, USA. He has got his Ph.D. and D.Sc. degrees from California South University (CSU), Irvine, California, USA. Furthermore, he has double postdocs in Project Management, Oncology, Human Cancer Tissues and Synchrotron Radiation from Monash University, Melbourne, Victoria, Australia and also in Nanochemistry and Modern Molecular Electronic–Structure Computations Theory from California South University (CSU), Irvine, California, USA. His research interests include Biophysical Chemistry, Biomolecular Spectroscopy, Quantum Chemistry, Nanochemistry, Modern Electronic Structure Computations, Theoretical Chemistry, Mathematical Chemistry, Computational Chemistry, Vibrational Spectroscopy, Molecular Modelling, Ab initio & Density Functional Methods, Molecular Structure, Biochemistry, Molecular Simulation, Pharmaceutical Chemistry, Medicinal Chemistry, Oncology, Synchrotron Radiation, Synchrocyclotron Radiation, LASER, Anti–Cancer Nano Drugs, Nano Drugs Delivery, ATR–FTIR Spectroscopy, Raman Spectroscopy, Intelligent Molecules, Molecular Dynamics, Biosensors, Biomarkers, Molecular Diagnostics, Numerical Chemistry, Nucleic Acids, DNA/RNA Monitoring, DNA/RNA Hypermethylation & Hypomethylation, Human Cancer Tissues, Human Cancer Cells, Tumors, Cancer Tissues, Cancer Cells, etc. He has participated at more than five hundred reputed international conferences, seminars, congresses, symposiums and forums around the world as yet. Also, he possesses many published articles in Science Citation Index (SCI)/International Scientific Indexing (ISI), Medline/PubMed and Scopus Journals. It should be noted that he has visited many universities or scientific and academic research institutes in different countries such as United States, United Kingdom, Canada, Australia, New Zealand, Scotland, Ireland, Netherlands, Belgium, Denmark, Luxembourg, Romania, Greece, Russia, Estonia, Ukraine, Turkey, France, Swiss, Germany, Sweden, Norway, Italy, Austria, Czech Republic, Hungary, Poland, South Africa, Egypt, Brazil, Spain, Portugal, Mexico, Japan, Singapore, Malaysia, Indonesia, Thailand, Taiwan, Hong Kong, Philippines, South Korea, China, India, Kingdom of Saudi Arabia, Jordan, Qatar, United Arab Emirates, etc. as research fellow, sabbatical and volunteer researcher or visitor and so on heretofore. He has a history of several years of teaching for college students and various disciplines and trends in different universities. Moreover, he has been a senior advisor in various industry and factories. He is expert in many computer programs and programming languages. Hitherto, he has authored more than twenty books and book chapters in different fields of Chemistry. Syne, he has been awarded more than one thousand reputed international awards, prizes, scholarships and honors. Heretofore, he has multiple editorial duties in many reputed international and peer–reviewed journals, books and publishers. Hitherward, he is a member of more than five hundred reputed international academic–scientific–research institutes around the world. It should be noted that he is currently the President of the American International Standards Institute (AISI), Irvine, California, USA and also Head of Cancer Research Institute (CRI) and Director of the BioSpectroscopy Core Research Laboratory at California South University (CSU), Irvine, California, USA.

ijho1017-26_Elena Locci

Elena Locci is a Ph.D. Candidate under the Supervision of Professor Alireza Heidari at Cancer Research Institute (CRI) and BioSpectroscopy Core Research Laboratory at California South University (CSU), Irvine, California, USA.

ijho1017-26_Silvia Raymond

Dr. Silvia Raymond, Ph.D., D.Sc. is the current Junior Postdoctoral Research Fellows under the Supervision of Professor Alireza Heidari at Cancer Research Institute (CRI) and BioSpectroscopy Core Research Laboratory at California South University (CSU), Irvine, California, USA.

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75. Heidari A. 2017. Study of Synthesis, Pharmacokinetics, Pharmacodynamics, Dosing, Stability, Safety and Efficacy of Olympiadane Nanomolecules as Agent for Cancer Enzymotherapy, Immunotherapy, Chemotherapy, Radiotherapy, Hormone Therapy and Targeted Therapy under Synchrotorn Radiation. J Dev Drugs. 6: 154.

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82. Heidari A. 2017. Concurrent Diagnosis of Oncology Influence Outcomes in Emergency General Surgery for Colorectal Cancer and Multiple Sclerosis (MS) Treatment Using Magnetic Resonance Imaging (MRI) and Au329(SR)84, Au329-xAgx(SR)84, Au144(SR)60, Au68(SR)36, Au30(SR)18, Au102(SPh)44, Au38(SPh)24, Au38(SC2H4Ph)24, Au21S(SAdm)15, Au36(pMBA)24 and Au25(pMBA)18 Nano Clusters. J Surgery Emerg Med. 1: 21.

83. Heidari A. 2017. Developmental Cell Biology in Adult Stem Cells Death and Autophagy to Trigger a Preventive Allergic Reaction to Common Airborne Allergens under Synchrotron Radiation Using Nanotechnology for Therapeutic Goals in Particular Allergy Shots (Immunotherapy). Cell Biol (Henderson, NV). 6: 1.

84. Heidari A. 2017. Changing Metal Powder Characteristics for Elimination of the Heavy Metals Toxicity and Diseases in Disruption of Extracellular Matrix (ECM) Proteins Adjustment in Cancer Metastases Induced by Osteosarcoma, Chondrosarcoma, Carcinoid, Carcinoma, Ewing’s Sarcoma, Fibrosarcoma and Secondary Hematopoietic Solid or Soft Tissue Tumors. J Powder Metall Min. 6: 170.

85. Heidari A. 2017. Nanomedicine-Based Combination Anti-Cancer Therapy between Nucleic Acids and Anti-Cancer Nano Drugs in Covalent Nano Drugs Delivery Systems for Selective Imaging and Treatment of Human Brain Tumors Using Hyaluronic Acid, Alguronic Acid and Sodium Hyaluronate as Anti-Cancer Nano Drugs and Nucleic Acids Delivery under Synchrotron Radiation. Am J Drug Deliv. 5: 2.

86. Heidari A. 2017. Clinical Trials of Dendritic Cell Therapies for Cancer Exposing Vulnerabilities in Human Cancer Cells’ Metabolism and Metabolomics: New Discoveries, Unique Features Inform New Therapeutic Opportunities, Biotech's Bumpy Road to the Market and Elucidating the Biochemical Programs that Support Cancer Initiation and Progression. J Biol Med Science. 1: 103.

87. Heidari A. 2017. The Design Graphene-Based Nanosheets as a New Nanomaterial in Anti-Cancer Therapy and Delivery of Chemotherapeutics and Biological Nano Drugs for Liposomal Anti-Cancer Nano Drugs and Gene Delivery. Br Biomed Bull. 5: 305.

88. Heidari A. 2017. Integrative Approach to Biological Networks for Emerging Roles of Proteomics, Genomics and Transcriptomics in the Discovery and Validation of Human Colorectal Cancer Biomarkers from DNA/RNA Sequencing Data under Synchrotron Radiation. Transcriptomics. 5: 117.

89. Heidari A. 2017. Elimination of the Heavy Metals Toxicity and Diseases in Disruption of Extracellular Matrix (ECM) Proteins and Cell Adhesion Intelligent Nanomolecules Adjustment in Cancer Metastases Using Metalloenzymes and under Synchrotron Radiation. Lett Health Biol Sci. 2: 1-4.

90. Heidari A. 2017. Treatment of Breast Cancer Brain Metastases through a Targeted Nanomolecule Drug Delivery System Based on Dopamine Functionalized Multi-Wall Carbon Nanotubes (MWCNTs) Coated with Nano Graphene Oxide (GO) and Protonated Polyaniline (PANI) in Situ During the Polymerization of Aniline Autogenic Nanoparticles for the Delivery of Anti-Cancer Nano Drugs under Synchrotron Radiation. Br J Res. 4: 16.

91. Heidari A. 2017. Sedative, Analgesic and Ultrasound-Mediated Gastrointestinal Nano Drugs Delivery for Gastrointestinal Endoscopic Procedure, Nano Drug-Induced Gastrointestinal Disorders and Nano Drug Treatment of Gastric Acidity. Res Rep Gastroenterol. 1: 1.

92. Heidari A. 2017. Synthesis, Pharmacokinetics, Pharmacodynamics, Dosing, Stability, Safety and Efficacy of Orphan Nano Drugs to Treat High Cholesterol and Related Conditions and to Prevent Cardiovascular Disease under Synchrotron Radiation. J Pharm Sci Emerg Drugs. 5: 1.

93. Heidari A. 2017. Non-Linear Compact Proton Synchrotrons to Improve Human Cancer Cells and Tissues Treatments and Diagnostics through Particle Therapy Accelerators with Monochromatic Microbeams. J Cell Biol Mol Sci. 2: 1-5.

94. Heidari A. 2017. Design of Targeted Metal Chelation Therapeutics Nanocapsules as Colloidal Carriers and Blood-Brain Barrier (BBB) Translocation to Targeted Deliver Anti-Cancer Nano Drugs into the Human Brain to Treat Alzheimer’s Disease under Synchrotron Radiation. J Nanotechnol Material Sci. 4: 1-5.

95. Gobato R, Heidari A. 2017. Calculations Using Quantum Chemistry for Inorganic Molecule Simulation BeLi2SeSi. Science Journal of Analytical Chemistry. 5: 76-85.

96. Heidari A. 2017. Different High-Resolution Simulations of Medical, Medicinal, Clinical, Pharmaceutical and Therapeutics Oncology of Human Lung Cancer Translational Anti-Cancer Nano Drugs Delivery Treatment Process under Synchrotron and X-Ray Radiations. J Med Oncol. 1: 1.

97. Heidari A. 2017. A Modern Ethnomedicinal Technique for Transformation, Prevention and Treatment of Human Malignant Gliomas Tumors into Human Benign Gliomas Tumors under Synchrotron Radiation. Am J Ethnomed. 1: 10.

98. Heidari A. 2017. Active Targeted Nanoparticles for Anti-Cancer Nano Drugs Delivery across the Blood-Brain Barrier for Human Brain Cancer Treatment, Multiple Sclerosis (MS) and Alzheimer's Diseases Using Chemical Modifications of Anti-Cancer Nano Drugs or Drug-Nanoparticles through Zika Virus (ZIKV) Nanocarriers under Synchrotron Radiation. J Med Chem Toxicol. 2: 1-5.

99. Heidari A. 2017. Investigation of Medical, Medicinal, Clinical and Pharmaceutical Applications of Estradiol, Mestranol (Norlutin), Norethindrone (NET), Norethisterone Acetate (NETA), Norethisterone Enanthate (NETE) and Testosterone Nanoparticles as Biological Imaging, Cell Labeling, Anti-Microbial Agents and Anti-Cancer Nano Drugs in Nanomedicines Based Drug Delivery Systems for Anti-Cancer Targeting and Treatment. Parana Journal of Science and Education (PJSE). 12.

100. Heidari A. 2017. A Comparative Computational and Experimental Study on Different Vibrational Biospectroscopy Methods, Techniques and Applications for Human Cancer Cells in Tumor Tissues Simulation, Modeling, Research, Diagnosis and Treatment. Open J Anal Bioanal Chem. 1: 014-020.

101. Heidari A. 2017. Combination of DNA/RNA Ligands and Linear/Non-Linear Visible-Synchrotron Radiation-Driven N-Doped Ordered Mesoporous Cadmium Oxide (CdO) Nanoparticles Photocatalysts Channels Resulted in an Interesting Synergistic Effect Enhancing Catalytic Anti-Cancer Activity. Enz Eng. 6: 1.

102. Heidari A. 2017. Modern Approaches in Designing Ferritin, Ferritin Light Chain, Transferrin, Beta-2 Transferrin and Bacterioferritin-Based Anti-Cancer Nano Drugs Encapsulating Nanosphere as DNA-Binding Proteins from Starved Cells (DPS). Mod Appro Drug Des. 1.

103. Heidari A. 2017. Potency of Human Interferon β-1a and Human Interferon β-1b in Enzymotherapy, Immunotherapy, Chemotherapy, Radiotherapy, Hormone Therapy and Targeted Therapy of Encephalomyelitis Disseminate/Multiple Sclerosis (MS) and Hepatitis A, B, C, D, E, F and G Virus Enter and Targets Liver Cells. J Proteomics Enzymol. 6: 1.

104. Heidari A. 2017. Transport Therapeutic Active Targeting of Human Brain Tumors Enable Anti-Cancer Nanodrugs Delivery across the Blood-Brain Barrier (BBB) to Treat Brain Diseases Using Nanoparticles and Nanocarriers under Synchrotron Radiation. J Pharm Pharmaceutics. 4: 1-5.

105. Heidari A, Brown C. 2017. Combinatorial Therapeutic Approaches to DNA/RNA and Benzylpenicillin (Penicillin G), Fluoxetine Hydrochloride (Prozac and Sarafem), Propofol (Diprivan), Acetylsalicylic Acid (ASA) (Aspirin), Naproxen Sodium (Aleve and Naprosyn) and Dextromethamphetamine Nanocapsules with Surface Conjugated DNA/RNA to Targeted Nano Drugs for Enhanced Anti-Cancer Efficacy and Targeted Cancer Therapy Using Nano Drugs Delivery Systems. Ann Adv Chem. 1: 061-069.

106. Heidari A. 2017. High-Resolution Simulations of Human Brain Cancer Translational Nano Drugs Delivery Treatment Process under Synchrotron Radiation. J Transl Res. 1: 1-3.

107. Heidari A. 2017. Investigation of Anti-Cancer Nano Drugs’ Effects’ Trend on Human Pancreas Cancer Cells and Tissues Prevention, Diagnosis and Treatment Process under Synchrotron and X-Ray Radiations with the Passage of Time Using Mathematica. Current Trends Anal Bioanal Chem. 1: 36-41.

108. Heidari A. 2017. Pros and Cons Controversy on Molecular Imaging and Dynamics of Double-Standard DNA/RNA of Human Preserving Stem Cells-Binding Nano Molecules with Androgens/Anabolic Steroids (AAS) or Testosterone Derivatives through Tracking of Helium-4 Nucleus (Alpha Particle) Using Synchrotron Radiation. Arch Biotechnol Biomed. 1: 067-0100.

109. Heidari A. 2017. Visualizing Metabolic Changes in Probing Human Cancer Cells and Tissues Metabolism Using Vivo 1H or Proton NMR, 13C NMR, 15N NMR and 31P NMR Spectroscopy and Self-Organizing Maps under Synchrotron Radiation. SOJ Mater Sci Eng. 5: 1-6.

110. Heidari A. 2017. Cavity Ring-Down Spectroscopy (CRDS), Circular Dichroism Spectroscopy, Cold Vapour Atomic Fluorescence Spectroscopy and Correlation Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation. Enliven: Challenges Cancer Detect Ther. 4: 001.

111. Heidari A. 2017. Laser Spectroscopy, Laser-Induced Breakdown Spectroscopy and Laser-Induced Plasma Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation. Int J Hepatol Gastroenterol. 3: 079-084.

112. Heidari A. 2017. Time-Resolved Spectroscopy and Time-Stretch Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation. Enliven: Pharmacovigilance and Drug Safety. 4: 001.

113. Heidari A. 2017. Overview of the Role of Vitamins in Reducing Negative Effect of Decapeptyl (Triptorelin Acetate or Pamoate Salts) on Prostate Cancer Cells and Tissues in Prostate Cancer Treatment Process through Transformation of Malignant Prostate Tumors into Benign Prostate Tumors under Synchrotron Radiation. Open J Anal Bioanal Chem. 1: 021-026.

114. Heidari A. 2017. Electron Phenomenological Spectroscopy, Electron Paramagnetic Resonance (EPR) Spectroscopy and Electron Spin Resonance (ESR) Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation. Austin J Anal Pharm Chem. 4: 1091.

115. Heidari A. 2017. Therapeutic Nanomedicine Different High-Resolution Experimental Images and Computational Simulations for Human Brain Cancer Cells and Tissues Using Nanocarriers Deliver DNA/RNA to Brain Tumors under Synchrotron Radiation with the Passage of Time Using Mathematica and MATLAB. Madridge J Nano Tech. Sci. 2: 77-83.

116. Heidari A. 2017. A Consensus and Prospective Study on Restoring Cadmium Oxide (CdO) Nano particles Sensitivity in Recurrent Ovarian Cancer by Extending the Cadmium Oxide (CdO) Nanoparticles-Free Interval Using Synchrotron Radiation Therapy as Antibody-Drug Conjugate for the Treatment of Limited-Stage Small Cell Diverse Epithelial Cancers. Cancer Clin Res Rep. 1: 001.

117. Heidari A. 2017. A Novel and Modern Experimental Imaging and Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under White Synchrotron Radiation. Cancer Sci Res Open Access. 4: 1-8.

118. Heidari A. 2017. Different High-Resolution Simulations of Medical, Medicinal, Clinical, Pharmaceutical and Therapeutics Oncology of Human Breast Cancer Translational Nano Drugs Delivery Treatment Process under Synchrotron and X-Ray Radiations. J Oral Cancer Res. 1: 12-17.

119. Heidari A. 2017. Vibrational Decihertz (dHz), Centihertz (cHz), Millihertz (mHz), Microhertz (μHz), Nanohertz (nHz), Picohertz (pHz), Femtohertz (fHz), Attohertz (aHz), Zeptohertz (zHz) and Yoctohertz (yHz) Imaging and Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. International Journal of Biomedicine. 7: 335-340.

120. Heidari A. 2017. Force Spectroscopy and Fluorescence Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation. EC Cancer. 2: 239-246.

121. Heidari A. 2017. Photoacoustic Spectroscopy, Photoemission Spectroscopy and Photothermal Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation. BAOJ Cancer Res Ther. 3: 045-052.

122. Heidari A. 2017. J-Spectroscopy, Exchange Spectroscopy (EXSY), Nucle¬ar Overhauser Effect Spectroscopy (NOESY) and Total Correlation Spectroscopy (TOCSY) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. EMS Eng Sci J. 1: 006-013.

123. Heidari A. 2017. Neutron Spin Echo Spectroscopy and Spin Noise Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation. Int J Biopharm Sci. 1: 103-107.

124. Heidari A. 2017. Vibrational Decahertz (daHz), Hectohertz (hHz), Kilohertz (kHz), Megahertz (MHz), Gigahertz (GHz), Terahertz (THz), Petahertz (PHz), Exahertz (EHz), Zettahertz (ZHz) and Yottahertz (YHz) Imaging and Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. Madridge J Anal Sci Instrum. 2: 41-46.

125. Heidari A. 2018. Two-Dimensional Infrared Correlation Spectroscopy, Linear Two-Dimensional Infrared Spectroscopy and Non-Linear Two-Dimensional Infrared Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation with the Passage of Time. J Mater Sci Nanotechnol. 6: 101.

126. Heidari A. 2018. Fourier Transform Infrared (FTIR) Spectroscopy, Near-Infrared Spectroscopy (NIRS) and Mid-Infrared Spectroscopy (MIRS) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation with the Passage of Time. Int J Nanotechnol Nanomed. 3: 1-6.

127. Heidari A. 2018. Infrared Photo Dissociation Spectroscopy and Infrared Correlation Table Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation with the Passage of Time. Austin Pharmacol Pharm. 3: 1011.

128. Heidari A. 2017. Novel and Transcendental Prevention, Diagnosis and Treatment Strategies for Investigation of Interaction among Human Blood Cancer Cells, Tissues, Tumors and Metastases with Synchrotron Radiation under Anti-Cancer Nano Drugs Delivery Efficacy Using MATLAB Modeling and Simulation. Madridge J Nov Drug Res. 1: 18-24.

129. Heidari A. 2018. Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation. Open Access J Trans Med Res. 2: 00026-00032.

130. Gobato MRR, Gobato R, Heidari A. 2018. Planting of Jaboticaba Trees for Landscape Repair of Degraded Area. Landscape Architecture and Regional Planning. 3: 1-9.

131. Heidari A. 2018. Fluorescence Spectroscopy, Phosphorescence Spectroscopy and Luminescence Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation with the Passage of Time. SM J Clin. Med. Imaging. 4: 1018.

132. Heidari A. 2018. Nuclear Inelastic Scattering Spectroscopy (NISS) and Nuclear Inelastic Absorption Spectroscopy (NIAS) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. Int J Pharm Sci. 2: 1-14.

133. Heidari A. 2018. X-Ray Diffraction (XRD), Powder X-Ray Diffraction (PXRD) and Energy-Dispersive X-Ray Diffraction (EDXRD) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. J Oncol Res. 2: 1-14.

134. Heidari A. 2018. Correlation Two-Dimensional Nuclear Magnetic Reso¬nance (NMR) (2D-NMR) (COSY) Imaging and Spectrosco¬py Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. EMS Can Sci. 1-1-001.

135. Heidari A. 2018. Thermal Spectroscopy, Photothermal Spectroscopy, Thermal Microspectroscopy, Photothermal Microspectroscopy, Thermal Macrospectroscopy and Photothermal Macrospectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation. SM J Biometrics Biostat. 3: 1024.

136. Heidari A. 2018. A Modern and Comprehensive Experimental Biospectroscopic Comparative Study on Human Common Cancers’ Cells, Tissues and Tumors before and after Synchrotron Radiation Therapy. Open Acc J Oncol Med. 1.

137. Heidari A. 2018. Heteronuclear Correlation Experiments such as Heteronuclear Single-Quantum Correlation Spectroscopy (HSQC), Heteronuclear Multiple-Quantum Correlation Spectroscopy (HMQC) and Heteronuclear Multiple-Bond Correlation Spectroscopy (HMBC) Comparative Study on Malignant and Benign Human Endocrinology and Thyroid Cancer Cells and Tissues under Synchrotron Radiation. J Endocrinol Thyroid Res. 3: 555603.

138. Heidari A. 2018. Nuclear Resonance Vibrational Spectroscopy (NRVS), Nuclear Inelastic Scattering Spectroscopy (NISS), Nuclear Inelastic Absorption Spectroscopy (NIAS) and Nuclear Resonant Inelastic X-Ray Scattering Spectroscopy (NRIXSS) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. Int J Bioorg Chem Mol Biol. 6: 1-5.

139. Heidari A. 2018. A Novel and Modern Experimental Approach to Vibrational Circular Dichroism Spectroscopy and Video Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under White and Monochromatic Synchrotron Radiation. Glob J Endocrinol Metab. 1: 514-519.

140. Heidari A. 2018. Pros and Cons Controversy on Heteronuclear Correlation Experiments such as Heteronuclear Single-Quantum Correlation Spectroscopy (HSQC), Heteronuclear Multiple-Quantum Correlation Spectroscopy (HMQC) and Heteronuclear Multiple-Bond Correlation Spectroscopy (HMBC) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. EMS Pharma J. 1: 2-8.

141. Heidari A. 2018. A Modern Comparative and Comprehensive Experimental Biospectroscopic Study on Different Types of Infrared Spectroscopy of Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation. J Analyt Molecul Tech. 3: 8.

142. Heidari A. 2018. Investigation of Cancer Types Using Synchrotron Technology for Proton Beam Therapy: An Experimental Biospectroscopic Comparative Study. European Modern Studies Journal. 2: 13-29.

143. Heidari A. 2018. Saturated Spectroscopy and Unsaturated Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation. Imaging J Clin Medical Sci. 5: 001-007.

144. Heidari A. 2018. Small-Angle Neutron Scattering (SANS) and Wide-Angle X-Ray Diffraction (WAXD) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. Int J Bioorg Chem Mol Biol. 6: 1-6.

145. Heidari A. 2018. Investigation of Bladder Cancer, Breast Cancer, Colorectal Cancer, Endometrial Cancer, Kidney Cancer, Leukemia, Liver, Lung Cancer, Melanoma, Non-Hodgkin Lymphoma, Pancreatic Cancer, Prostate Cancer, Thyroid Cancer and Non-Melanoma Skin Cancer Using Synchrotron Technology for Proton Beam Therapy: An Experimental Biospectroscopic Comparative Study. Ther Res Skin Dis. 1.

146. Heidari A. 2018. Attenuated Total Reflectance Fourier Transform Infrared (ATR-FTIR) Spectroscopy, Micro-Attenuated Total Reflectance Fourier Transform Infrared (Micro-ATR-FTIR) Spectroscopy and Macro-Attenuated Total Reflectance Fourier Transform Infrared (Macro-ATR-FTIR) Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation with the Passage of Time. International Journal of Chemistry Papers. 2: 1-12.

147. Heidari A. 2018. Mössbauer Spectroscopy, Mössbauer Emission Spectroscopy and 57Fe Mössbauer Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. Acta Scientific Cancer Biology 2. 3: 17-20.

148. Heidari A. 2018. Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation with the Passage of Time. Organic & Medicinal Chem IJ. 6: 555676.

149. Heidari A. 2018. Correlation Spectroscopy, Exclusive Correlation Spectroscopy and Total Correlation Spectroscopy Comparative Study on Malignant and Benign Human AIDS-Related Cancers Cells and Tissues with the Passage of Time under Synchrotron Radiation. Int J Bioanal Biomed. 2: 001-007.

150. Heidari A. 2018. Biomedical Instrumentation and Applications of Biospectroscopic Methods and Techniques in Malignant and Benign Human Cancer Cells and Tissues Studies under Synchrotron Radiation and Anti-Cancer Nano Drugs Delivery. Am J Nanotechnol Nanomed. 1: 001-009.

151. Heidari A. 2018. Vivo 1H or Proton NMR, 13C NMR, 15N NMR and 31P NMR Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation”, Ann Biomet Biostat. 1: 1001.

152. Heidari A. 2018. Grazing-Incidence Small-Angle Neutron Scattering (GISANS) and Grazing-Incidence X-Ray Diffraction (GIXD) Comparative Study on Malignant and Benign Human Cancer Cells, Tissues and Tumors under Synchrotron Radiation. Ann Cardiovasc Surg. 1: 1006.

153. Heidari A. 2018. Adsorption Isotherms and Kinetics of Multi-Walled Carbon Nanotubes (MWCNTs), Boron Nitride Nanotubes (BNNTs), Amorphous Boron Nitride Nanotubes (a-BNNTs) and Hexagonal Boron Nitride Nanotubes (h-BNNTs) for Eliminating Carcinoma, Sarcoma, Lymphoma, Leukemia, Germ Cell Tumor and Blastoma Cancer Cells and Tissues. Clin Med Rev Case Rep. 5: 201.

154. Heidari A. 2018. Correlation Spectroscopy (COSY), Exclusive Correlation Spectroscopy (ECOSY), Total Correlation Spectroscopy (TOCSY), Incredible Natural-Abundance Double-Quantum Transfer Experiment (INADEQUATE), Heteronuclear Single-Quantum Correlation Spectroscopy (HSQC), Heteronuclear Multiple-Bond Correlation Spectroscopy (HMBC), Nuclear Overhauser Effect Spectroscopy (NOESY) and Rotating Frame Nuclear Overhauser Effect Spectroscopy (ROESY) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. Acta Scientific Pharmaceutical Sciences. 2. 5: 30-35.

155. Heidari A. 2018. Small-Angle X-Ray Scattering (SAXS), Ultra-Small Angle X-Ray Scattering (USAXS), Fluctuation X-Ray Scattering (FXS), Wide-Angle X-Ray Scattering (WAXS), Grazing-Incidence Small-Angle X-Ray Scattering (GISAXS), Grazing-Incidence Wide-Angle X-Ray Scattering (GIWAXS), Small-Angle Neutron Scattering (SANS), Grazing-Incidence Small-Angle Neutron Scattering (GISANS), X-Ray Diffraction (XRD), Powder X-Ray Diffraction (PXRD), Wide-Angle X-Ray Diffraction (WAXD), Grazing-Incidence X-Ray Diffraction (GIXD) and Energy-Dispersive X-Ray Diffraction (EDXRD) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. Oncol Res Rev. 1: 1-10.

156. Heidari A. 2018. Pump-Probe Spectroscopy and Transient Grating Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation. Adv Material Sci Engg. 2: 1-7.

157. Heidari A. 2018. Grazing-Incidence Small-Angle X-Ray Scattering (GISAXS) and Grazing-Incidence Wide-Angle X-Ray Scattering (GIWAXS) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. Insights Pharmacol Pharm Sci. 1: 1-8.

158. Heidari A. 2018. Acoustic Spectroscopy, Acoustic Resonance Spectroscopy and Auger Spectroscopy Comparative Study on Anti-Cancer Nano Drugs Delivery in Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation. Nanosci Technol. 5: 1-9.

159. Heidari A. 2018. Niobium, Technetium, Ruthenium, Rhodium, Hafnium, Rhenium, Osmium and Iridium Ions Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron and Synchrocyclotron Radiations. Nanomed Nanotechnol. 3: 138.

160. Heidari A. 2018. Homonuclear Correlation Experiments such as Homonuclear Single-Quantum Correlation Spectroscopy (HSQC), Homonuclear Multiple-Quantum Correlation Spectroscopy (HMQC) and Homonuclear Multiple-Bond Correlation Spectroscopy (HMBC) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. Austin J Proteomics Bioinform & Genomics. 5: 1024.

161. Heidari A. 2018. Atomic Force Microscopy Based Infrared (AFM-IR) Spectroscopy and Nuclear Resonance Vibrational Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation with the Passage of Time. J Appl Biotechnol Bioeng. 5: 142-148.

162. Heidari A. 2018. Time-Dependent Vibrational Spectral Analysis of Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. J Cancer Oncol. 2: 124.

163. Heidari A. 2018. Palauamine and Olympiadane Nano Molecules Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron and Synchrocyclotron Radiations. Arc Org Inorg Chem Sci. 3.

164. Gobato R, Heidari A. 2018. Infrared Spectrum and Sites of Action of Sanguinarine by Molecular Mechanics and ab initio Methods. International Journal of Atmospheric and Oceanic Sciences. 2: 1-9.

165. Heidari A. 2018. Angelic Acid, Diabolic Acids, Draculin and Miraculin Nano Molecules Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells, Tissues and Tumors Treatment Under Synchrotron and Synchrocyclotron Radiations. Med & Analy Chem Int J. 2: 111.

166. Heidari A. 2018. Gamma Linolenic Methyl Ester, 5-Heptadeca-5,8,11-Trienyl 1,3,4-Oxadiazole-2-Thiol, Sulphoquinovosyl Diacyl Glycerol, Ruscogenin, Nocturnoside B, Protodioscine B, Parquisoside-B, Leiocarposide, Narangenin, 7-Methoxy Hespertin, Lupeol, Rosemariquinone, Rosmanol and Rosemadiol Nano Molecules Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron and Synchrocyclotron Radiations. Int J Pharma Anal Acta. 2: 007-014.

167. Heidari A. 2018. Fourier Transform Infrared (FTIR) Spectroscopy, Attenuated Total Reflectance Fourier Transform Infrared (ATR-FTIR) Spectroscopy, Micro-Attenuated Total Reflectance Fourier Transform Infrared (Micro-ATR-FTIR) Spectroscopy, Macro-Attenuated Total Reflectance Fourier Transform Infrared (Macro-ATR-FTIR) Spectroscopy, Two-Dimensional Infrared Correlation Spectroscopy, Linear Two-Dimensional Infrared Spectroscopy, Non-Linear Two-Dimensional Infrared Spectroscopy, Atomic Force Microscopy Based Infrared (AFM-IR) Spectroscopy, Infrared Photodissociation Spectroscopy, Infrared Correlation Table Spectroscopy, Near-Infrared Spectroscopy (NIRS), Mid-Infrared Spectroscopy (MIRS), Nuclear Resonance Vibrational Spectroscopy, Thermal Infrared Spectroscopy and Photothermal Infrared Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation with the Passage of Time. Glob Imaging Insights, Volume. 3: 1-14.

168. Heidari A. 2018. Heteronuclear Single-Quantum Correlation Spectroscopy (HSQC) and Heteronuclear Multiple-Bond Correlation Spectroscopy (HMBC) Comparative Study on Malignant and Benign Human Cancer Cells, Tissues and Tumors under Synchrotron and Synchrocyclotron Radiations. Chronicle of Medicine and Surgery 2. 3: 144-156.

169. HeidariA. 2018. Tetrakis [3, 5-bis (Trifluoromethyl) Phenyl] Borate (BARF)-Enhanced Precatalyst Preparation Stabilization and Initiation (EPPSI) Nano Molecules. Medical Research and Clinical Case Reports 2. 1: 113-126.

170. Heidari A. 2018. Sydnone, Münchnone, Montréalone, Mogone, Montelukast, Quebecol and Palau’amine-Enhanced Precatalyst Preparation Stabilization and Initiation (EPPSI) Nano Molecules. Sur Cas Stud Op Acc J. 1.

171. Heidari A. 2018. Fornacite, Orotic Acid, Rhamnetin, Sodium Ethyl Xanthate (SEX) and Spermine (Spermidine or Polyamine) Nanomolecules Incorporation into the Nanopolymeric Matrix (NPM). International Journal of Biochemistry and Biomolecules. 4: 1-19.

172. Heidari A, Gobato R. 2018. Putrescine, Cadaverine, Spermine and Spermidine-Enhance d Precatalyst Preparation Stabilization and Initiation (EPPSI) Nano Molecules. Parana Journal of Science and Education. 5: 1.

173. Heidari A. 2018. Cadaverine (1,5-Pentanediamine or Pentamethylenediamine), Diethyl Azodicarboxylate (DEAD or DEADCAT) and Putrescine (Tetramethylenediamine) Nano Molecules Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron and Synchrocyclotron Radiations. Hiv and Sexual Health Open Access Open Journal. 1: 4-11.

174. Heidari A. 2018. Improving the Performance of Nano-Endofullerenes in Polyaniline Nanostructure-Based Biosensors by Covering Californium Colloidal Nanoparticles with Multi-Walled Carbon Nanotubes. Journal of Advances in Nanomaterials. 3: 1-28.

175. Gobato R. Heidari A. 2018. Molecular Mechanics and Quantum Chemical Study on Sites of Action of Sanguinarine Using Vibrational Spectroscopy Based on Molecular Mechanics and Quantum Chemical Calculations. Malaysian Journal of Chemistry. 20: 1-23.

176. Heidari A. 2018. Vibrational Biospectroscopic Studies on Anti-cancer Nanopharmaceuticals (Part I). Malaysian Journal of Chemistr. 20: 33-73.

177. Heidari A. Vibrational Biospectroscopic Studies on Anti-cancer Nanopharmaceuticals (Part II). Malaysian Journal of Chemistry. 20: 74-117.

178. Heidari A. 2018. Uranocene (U(C8H8)2) and Bis (Cyclooctatetraene)Iron (Fe(C8H8)2 or Fe (COT)2)-Enhanced Precatalyst Preparation Stabilization and Initiation (EPPSI) Nano Molecules. Chemistry Reports. 1: Pages 1-16.

179. Heidari A. 2018. Biomedical Systematic and Emerging Technological Study on Human Malignant and Benign Cancer Cells and Tissues Biospectroscopic Analysis under Synchrotron Radiation. Glob Imaging Insights. 3: 1-7.

180. Heidari A. 2018. Deep-Level Transient Spectroscopy and X-Ray Photoelectron Spectroscopy (XPS) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation. Res Dev Material Sci. 7: 659.

181. Heidari A. 2018. C70-Carboxyfullerenes Nano Molecules Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron and Synchrocyclotron Radiations. Glob Imaging Insights. 3: 1-7.

182. Heidari A. 2018. The Effect of Temperature on Cadmium Oxide (CdO) Nanoparticles Produced by Synchrotron Radiation in the Human Cancer Cells, Tissues and Tumors. International Journal of Advanced Chemistry. 6: 140-156.

183. Heidari A. 2018. A Clinical and Molecular Pathology Investigation of Correlation Spectroscopy (COSY), Exclusive Correlation Spectroscopy (ECOSY), Total Correlation Spectroscopy (TOCSY), Heteronuclear Single-Quantum Correlation Spectroscopy (HSQC) and Heteronuclear Multiple-Bond Correlation Spectroscopy (HMBC) Comparative Study on Malignant and Benign Human Cancer Cells, Tissues and Tumors under Synchrotron and Synchrocyclotron Radiations Using Cyclotron versus Synchrotron, Synchrocyclotron and the Large Hadron Collider (LHC) for Delivery of Proton and Helium Ion (Charged Particle) Beams for Oncology Radiotherapy. European Journal of Advances in Engineering and Technology. 5: 414-426.

184. Heidari A. 2018. Nano Molecules Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron and Synchrocyclotron Radiations. J Oncol Res. 1: 1-20.

185. Heidari A. 2018. Use of Molecular Enzymes in the Treatment of Chronic Disorders. Canc Oncol Open Access J. 1: 12-15.

186. Heidari A. 2018. Vibrational Biospectroscopic Study and Chemical Structure Analysis of Unsaturated Polyamides Nanoparticles as Anti-Cancer Polymeric Nanomedicines Using Synchrotron Radiation. International Journal of Advanced Chemistry. 6: 167-189s.

187. Heidari A. 2018. Adamantane, Irene, Naftazone and Pyridine-Enhanced Precatalyst Preparation Stabilization and Initiation (PEPPSI) Nano Molecules. Madridge J Nov Drug Res. 2: 61-67.

188. Heidari A. 2018. Heteronuclear Single-Quantum Correlation Spectroscopy (HSQC) and Heteronuclear Multiple-Bond Correlation Spectroscopy (HMBC) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation. Madridge J Nov Drug Res. 2: 68-74.

189. Heidari A, Gobato R. 2018. A Novel Approach to Reduce Toxicities and to Improve Bioavailabilities of DNA/RNA of Human Cancer Cells-Containing Cocaine (Coke), Lysergide (Lysergic Acid Diethyl Amide or LSD), Δ?-Tetrahydrocannabinol (THC) [(-)-trans-Δ?-Tetrahydrocannabinol], Theobromine (Xantheose), Caffeine, Aspartame (APM) (NutraSweet) and Zidovudine (ZDV) [Azidothymidine (AZT)] as Anti-Cancer Nano Drugs by Coassembly of Dual Anti-Cancer Nano Drugs to Inhibit DNA/RNA of Human Cancer Cells Drug Resistance. Parana Journal of Science and Education. 4: 1-17.

190. Heidari A, Gobato R. 2018. Ultraviolet Photoelectron Spectroscopy (UPS) and Ultraviolet-Visible (UV-Vis) Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation”, Parana Journal of Science and Education. 6: 18-33.

191. Gobato R, Heidari A, Mitra A. 2018. The Creation of C13H20BeLi2SeSi. The Proposal of a Bio-Inorganic Molecule, Using Ab Initio Methods for the Genesis of a Nano Membrane. Arc Org Inorg Chem Sci 3: 167.

192. Gobato R, Heidari A. 2018. Using the Quantum Chemistry for Genesis of a Nano Biomembrane with a Combination of the Elements Be, Li, Se, Si, C and H. J Nanomed Res. 7: 241-252.

193. Heidari A. 2018. Bastadins and Bastaranes-Enhanced Precatalyst Preparation Stabilization and Initiation (EPPSI) Nano Molecules. Glob Imaging Insights, Volume 3: 1-7.

194. Heidari A. 2018. Fucitol, Pterodactyladiene, DEAD or DEADCAT (DiEthyl AzoDiCArboxylaTe), Skatole, the NanoPutians, Thebacon, Pikachurin, Tie Fighter, Spermidine and Mirasorvone Nano Molecules Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron and Synchrocyclotron Radiations. Glob Imaging Insights, Volume. 3: 1-8.

195. Dadvar E, Heidari A. 2018. A Review on Separation Techniques of Graphene Oxide (GO)/Base on Hybrid Polymer Membranes for Eradication of Dyes and Oil Compounds: Recent Progress in Graphene Oxide (GO)/Base on Polymer Membranes-Related Nanotechnologies. Clin Med Rev Case Rep. 5: 228.

196. Heidari A, Gobato R. 2018. First-Time Simulation of Deoxyuridine Monophosphate (dUMP) (Deoxyuridylic Acid or Deoxyuridylate) and Vomitoxin (Deoxynivalenol (DON)) ((3α,7α)-3,7,15-Trihydroxy-12,13-Epoxytrichothec-9-En-8-One)-Enhanced Precatalyst Preparation Stabilization and Initiation (EPPSI) Nano Molecules Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron and Synchrocyclotron Radiations. Parana Journal of Science and Education. 6: 46-67.

197. Heidari A. 2018. Buckminsterfullerene (Fullerene), Bullvalene, Dickite and Josiphos Ligands Nano Molecules Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Hematology and Thromboembolic Diseases Prevention, Diagnosis and Treatment under Synchrotron and Synchrocyclotron Radiations. Glob Imaging Insights, Volume. 3: 1-7.

198. Heidari A. 2018. Fluctuation X-Ray Scattering (FXS) and Wide-Angle X-Ray Scattering (WAXS) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. Glob Imaging Insights. 3: 1-7.

199. Heidari A. 2018. A Novel Approach to Correlation Spectroscopy (COSY), Exclusive Correlation Spectroscopy (ECOSY), Total Correlation Spectroscopy (TOCSY), Incredible Natural-Abundance Double-Quantum Transfer Experiment (INADEQUATE), Heteronuclear Single-Quantum Correlation Spectroscopy (HSQC), Heteronuclear Multiple-Bond Correlation Spectroscopy (HMBC), Nuclear Overhauser Effect Spectroscopy (NOESY) and Rotating Frame Nuclear Overhauser Effect Spectroscopy (ROESY) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. Glob Imaging Insights. 3: 1-9.

200. Heidari A. 2018. Terphenyl-Based Reversible Receptor with Rhodamine, Rhodamine-Based Molecular Probe, Rhodamine-Based Using the Spirolactam Ring Opening, Rhodamine B with Ferrocene Substituent, Calix[4]Arene-Based Receptor, Thioether + Aniline-Derived Ligand Framework Linked to a Fluorescein Platform, Mercuryfluor-1 (Flourescent Probe), N,N’-Dibenzyl-1,4,10,13-Tetraraoxa-7,16-Diazacyclooctadecane and Terphenyl-Based Reversible Receptor with Pyrene and Quinoline as the Fluorophores-Enhanced Precatalyst Preparation Stabilization and Initiation (EPPSI) Nano Molecules. Glob Imaging Insights, Volume. 3: 1-9.

201. Heidari A. 2018. Small-Angle X-Ray Scattering (SAXS), Ultra-Small Angle X-Ray Scattering (USAXS), Fluctuation X-Ray Scattering (FXS), Wide-Angle X-Ray Scattering (WAXS), Grazing-Incidence Small-Angle X-Ray Scattering (GISAXS), Grazing-Incidence Wide-Angle X-Ray Scattering (GIWAXS), Small-Angle Neutron Scattering (SANS), Grazing-Incidence Small-Angle Neutron Scattering (GISANS), X-Ray Diffraction (XRD), Powder X-Ray Diffraction (PXRD), Wide-Angle X-Ray Diffraction (WAXD), Grazing- Incidence X-Ray Diffraction (GIXD) and Energy-Dispersive X-Ray Diffraction (EDXRD) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. Glob Imaging Insights. 3: 1-10.

202. Heidari A. 2018. Nuclear Resonant Inelastic X-Ray Scattering Spectroscopy (NRIXSS) and Nuclear Resonance Vibrational Spectroscopy (NRVS) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. Glob Imaging Insights. 3: 1-7.

203. Heidari A. 2018. Small-Angle X-Ray Scattering (SAXS) and Ultra-Small Angle X-Ray Scattering (USAXS) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. Glob Imaging Insights. 3: 1-7.

204. Heidari A. 2018. Curious Chloride (CmCl3) and Titanic Chloride (TiCl4)-Enhanced Precatalyst Preparation Stabilization and Initiation (EPPSI) Nano Molecules for Cancer Treatment and Cellular Therapeutics. J. Cancer Research and Therapeutic Interventions. 1: 01-10.

205. Gobato R, Gobato MRR, Heidari A. 2018. Mitra, Spectroscopy and Dipole Moment of the Molecule C13H20BeLi2SeSi via Quantum Chemistry Using Ab Initio, Hartree-Fock Method in the Base Set CC-pVTZ and 6-311G**(3df, 3pd). Arc Org Inorg Chem Sci. 3: 402-409.

206. Heidari A. 2018. C60 and C70-Encapsulating Carbon Nanotubes Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron and Synchrocyclotron Radiations. Integr Mol Med. 5: 1-8.

207. Heidari A. 2018. Two-Dimensional (2D) 1H or Proton NMR, 13C NMR, 15N NMR and 31P NMR Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation with the Passage of Time. Glob Imaging Insights. 3: 1-8.

208. Heidari A. 2018. FT-Raman Spectroscopy, Coherent Anti-Stokes Raman Spectroscopy (CARS) and Raman Optical Activity Spectroscopy (ROAS) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation. Glob Imaging Insights. 3: 1-8.

209. Heidari A. 2018. Heteronuclear Single-Quantum Correlation Spectroscopy (HSQC) and Heteronuclear Multiple-Bond Correlation Spectroscopy (HMBC) Comparative Study on Malignant and Benign Human Cancer Cells, Tissues and Tumors under Synchrotron and Synchrocyclotron Radiations. Chronicle of Medicine and Surgery 2. 3: 144-156.

210. HeidariA. 2018. Tetrakis [3, 5-bis (Trifluoromethyl) Phenyl] Borate (BARF)-Enhanced Precatalyst Preparation Stabilization and Initiation (EPPSI) Nano Molecules. Medical Research and Clinical Case Reports 2. 1: 113-126.

211. Heidari A. 2018. Sydnone, Münchnone, Montréalone, Mogone, Montelukast, Quebecol and Palau’amine-Enhanced Precatalyst Preparation Stabilization and Initiation (EPPSI) Nano Molecules. Sur Cas Stud Op Acc J. 1.

212. Heidari A. 2018. Fornacite, Orotic Acid, Rhamnetin, Sodium Ethyl Xanthate (SEX) and Spermine (Spermidine or Polyamine) Nanomolecules Incorporation into the Nanopolymeric Matrix (NPM). International Journal of Biochemistry and Biomolecules. 4: 1-19.

213. Heidari A, Gobato R. 2018. Putrescine, Cadaverine, Spermine and Spermidine-Enhance d Precatalyst Preparation Stabilization and Initiation (EPPSI) Nano Molecules. Parana Journal of Science and Education. 5: 1.

214. Heidari A. 2018. Cadaverine (1,5-Pentanediamine or Pentamethylenediamine), Diethyl Azodicarboxylate (DEAD or DEADCAT) and Putrescine (Tetramethylenediamine) Nano Molecules Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron and Synchrocyclotron Radiations. Hiv and Sexual Health Open Access Open Journal. 1: 4-11.

215. Heidari A. 2018. Improving the Performance of Nano-Endofullerenes in Polyaniline Nanostructure-Based Biosensors by Covering Californium Colloidal Nanoparticles with Multi-Walled Carbon Nanotubes. Journal of Advances in Nanomaterials. 3: 1-28.

216. Gobato R. Heidari A. 2018. Molecular Mechanics and Quantum Chemical Study on Sites of Action of Sanguinarine Using Vibrational Spectroscopy Based on Molecular Mechanics and Quantum Chemical Calculations. Malaysian Journal of Chemistry. 20: 1-23.

217. Heidari A. 2018. Vibrational Biospectroscopic Studies on Anti-cancer Nanopharmaceuticals (Part I). Malaysian Journal of Chemistr. 20: 33-73.

218. 169. Heidari A. Vibrational Biospectroscopic Studies on Anti-cancer Nanopharmaceuticals (Part II). Malaysian Journal of Chemistry. 20: 74-117.

219. Heidari A. 2018. Uranocene (U(C8H8)2) and Bis (Cyclooctatetraene)Iron (Fe(C8H8)2 or Fe (COT)2)-Enhanced Precatalyst Preparation Stabilization and Initiation (EPPSI) Nano Molecules. Chemistry Reports. 1: Pages 1-16.

220. Heidari A. 2018. Biomedical Systematic and Emerging Technological Study on Human Malignant and Benign Cancer Cells and Tissues Biospectroscopic Analysis under Synchrotron Radiation. Glob Imaging Insights. 3: 1-7.

221. Heidari A. 2018. Deep-Level Transient Spectroscopy and X-Ray Photoelectron Spectroscopy (XPS) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation. Res Dev Material Sci. 7: 659.

222. Heidari A. 2018. C70-Carboxyfullerenes Nano Molecules Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron and Synchrocyclotron Radiations. Glob Imaging Insights. 3: 1-7.

223. Heidari A. 2018. The Effect of Temperature on Cadmium Oxide (CdO) Nanoparticles Produced by Synchrotron Radiation in the Human Cancer Cells, Tissues and Tumors. International Journal of Advanced Chemistry. 6: 140-156.

224. Heidari A. 2018. A Clinical and Molecular Pathology Investigation of Correlation Spectroscopy (COSY), Exclusive Correlation Spectroscopy (ECOSY), Total Correlation Spectroscopy (TOCSY), Heteronuclear Single-Quantum Correlation Spectroscopy (HSQC) and Heteronuclear Multiple-Bond Correlation Spectroscopy (HMBC) Comparative Study on Malignant and Benign Human Cancer Cells, Tissues and Tumors under Synchrotron and Synchrocyclotron Radiations Using Cyclotron versus Synchrotron, Synchrocyclotron and the Large Hadron Collider (LHC) for Delivery of Proton and Helium Ion (Charged Particle) Beams for Oncology Radiotherapy. European Journal of Advances in Engineering and Technology. 5: 414-426.

225. Heidari A. 2018. Nano Molecules Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron and Synchrocyclotron Radiations. J Oncol Res. 1: 1-20.

226. Heidari A. 2018. Use of Molecular Enzymes in the Treatment of Chronic Disorders. Canc Oncol Open Access J. 1: 12-15.

227. Heidari A. 2018. Vibrational Biospectroscopic Study and Chemical Structure Analysis of Unsaturated Polyamides Nanoparticles as Anti-Cancer Polymeric Nanomedicines Using Synchrotron Radiation. International Journal of Advanced Chemistry. 6: 167-189s.

228. Heidari A. 2018. Adamantane, Irene, Naftazone and Pyridine-Enhanced Precatalyst Preparation Stabilization and Initiation (PEPPSI) Nano Molecules. Madridge J Nov Drug Res. 2: 61-67.

229. Heidari A. 2018. Heteronuclear Single-Quantum Correlation Spectroscopy (HSQC) and Heteronuclear Multiple-Bond Correlation Spectroscopy (HMBC) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation. Madridge J Nov Drug Res. 2: 68-74.

230. Heidari A, Gobato R. 2018. A Novel Approach to Reduce Toxicities and to Improve Bioavailabilities of DNA/RNA of Human Cancer Cells-Containing Cocaine (Coke), Lysergide (Lysergic Acid Diethyl Amide or LSD), Δ?-Tetrahydrocannabinol (THC) [(-)-trans-Δ?-Tetrahydrocannabinol], Theobromine (Xantheose), Caffeine, Aspartame (APM) (NutraSweet) and Zidovudine (ZDV) [Azidothymidine (AZT)] as Anti-Cancer Nano Drugs by Coassembly of Dual Anti-Cancer Nano Drugs to Inhibit DNA/RNA of Human Cancer Cells Drug Resistance. Parana Journal of Science and Education. 4: 1-17.

231. Heidari A, Gobato R. 2018. Ultraviolet Photoelectron Spectroscopy (UPS) and Ultraviolet-Visible (UV-Vis) Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation”, Parana Journal of Science and Education. 6: 18-33.

232. Gobato R, Heidari A, Mitra A. 2018. The Creation of C13H20BeLi2SeSi. The Proposal of a Bio-Inorganic Molecule, Using Ab Initio Methods for the Genesis of a Nano Membrane. Arc Org Inorg Chem Sci 3: 167.

233. Gobato R, Heidari A. 2018. Using the Quantum Chemistry for Genesis of a Nano Biomembrane with a Combination of the Elements Be, Li, Se, Si, C and H. J Nanomed Res. 7: 241-252.

234. Heidari A. 2018. Bastadins and Bastaranes-Enhanced Precatalyst Preparation Stabilization and Initiation (EPPSI) Nano Molecules. Glob Imaging Insights, Volume 3: 1-7.

235. Heidari A. 2018. Fucitol, Pterodactyladiene, DEAD or DEADCAT (DiEthyl AzoDiCArboxylaTe), Skatole, the NanoPutians, Thebacon, Pikachurin, Tie Fighter, Spermidine and Mirasorvone Nano Molecules Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron and Synchrocyclotron Radiations. Glob Imaging Insights, Volume. 3: 1-8.

236. Dadvar E, Heidari A. 2018. A Review on Separation Techniques of Graphene Oxide (GO)/Base on Hybrid Polymer Membranes for Eradication of Dyes and Oil Compounds: Recent Progress in Graphene Oxide (GO)/Base on Polymer Membranes-Related Nanotechnologies. Clin Med Rev Case Rep. 5: 228.

237. Heidari A, Gobato R. 2018. First-Time Simulation of Deoxyuridine Monophosphate (dUMP) (Deoxyuridylic Acid or Deoxyuridylate) and Vomitoxin (Deoxynivalenol (DON)) ((3α,7α)-3,7,15-Trihydroxy-12,13-Epoxytrichothec-9-En-8-One)-Enhanced Precatalyst Preparation Stabilization and Initiation (EPPSI) Nano Molecules Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron and Synchrocyclotron Radiations. Parana Journal of Science and Education. 6: 46-67.

238. Heidari A. 2018. Buckminsterfullerene (Fullerene), Bullvalene, Dickite and Josiphos Ligands Nano Molecules Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Hematology and Thromboembolic Diseases Prevention, Diagnosis and Treatment under Synchrotron and Synchrocyclotron Radiations. Glob Imaging Insights, Volume. 3: 1-7.

239. Heidari A. 2018. Fluctuation X-Ray Scattering (FXS) and Wide-Angle X-Ray Scattering (WAXS) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. Glob Imaging Insights. 3: 1-7.

240. Heidari A. 2018. A Novel Approach to Correlation Spectroscopy (COSY), Exclusive Correlation Spectroscopy (ECOSY), Total Correlation Spectroscopy (TOCSY), Incredible Natural-Abundance Double-Quantum Transfer Experiment (INADEQUATE), Heteronuclear Single-Quantum Correlation Spectroscopy (HSQC), Heteronuclear Multiple-Bond Correlation Spectroscopy (HMBC), Nuclear Overhauser Effect Spectroscopy (NOESY) and Rotating Frame Nuclear Overhauser Effect Spectroscopy (ROESY) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. Glob Imaging Insights. 3: 1-9.

241. Heidari A. 2018. Terphenyl-Based Reversible Receptor with Rhodamine, Rhodamine-Based Molecular Probe, Rhodamine-Based Using the Spirolactam Ring Opening, Rhodamine B with Ferrocene Substituent, Calix[4]Arene-Based Receptor, Thioether + Aniline-Derived Ligand Framework Linked to a Fluorescein Platform, Mercuryfluor-1 (Flourescent Probe), N,N’-Dibenzyl-1,4,10,13-Tetraraoxa-7,16-Diazacyclooctadecane and Terphenyl-Based Reversible Receptor with Pyrene and Quinoline as the Fluorophores-Enhanced Precatalyst Preparation Stabilization and Initiation (EPPSI) Nano Molecules. Glob Imaging Insights, Volume. 3: 1-9.

242. Heidari A. 2018. Small-Angle X-Ray Scattering (SAXS), Ultra-Small Angle X-Ray Scattering (USAXS), Fluctuation X-Ray Scattering (FXS), Wide-Angle X-Ray Scattering (WAXS), Grazing-Incidence Small-Angle X-Ray Scattering (GISAXS), Grazing-Incidence Wide-Angle X-Ray Scattering (GIWAXS), Small-Angle Neutron Scattering (SANS), Grazing-Incidence Small-Angle Neutron Scattering (GISANS), X-Ray Diffraction (XRD), Powder X-Ray Diffraction (PXRD), Wide-Angle X-Ray Diffraction (WAXD), Grazing- Incidence X-Ray Diffraction (GIXD) and Energy-Dispersive X-Ray Diffraction (EDXRD) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. Glob Imaging Insights. 3: 1-10.

243. Heidari A. 2018. Nuclear Resonant Inelastic X-Ray Scattering Spectroscopy (NRIXSS) and Nuclear Resonance Vibrational Spectroscopy (NRVS) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. Glob Imaging Insights. 3: 1-7.

244. Heidari A. 2018. Small-Angle X-Ray Scattering (SAXS) and Ultra-Small Angle X-Ray Scattering (USAXS) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. Glob Imaging Insights. 3: 1-7.

245. Heidari A. 2018. Curious Chloride (CmCl3) and Titanic Chloride (TiCl4)-Enhanced Precatalyst Preparation Stabilization and Initiation (EPPSI) Nano Molecules for Cancer Treatment and Cellular Therapeutics. J. Cancer Research and Therapeutic Interventions. 1: 01-10.

246. Gobato R, Gobato MRR, Heidari A. 2018. Mitra, Spectroscopy and Dipole Moment of the Molecule C13H20BeLi2SeSi via Quantum Chemistry Using Ab Initio, Hartree-Fock Method in the Base Set CC-pVTZ and 6-311G**(3df, 3pd). Arc Org Inorg Chem Sci. 3: 402-409.

247. Heidari A. 2018. C60 and C70-Encapsulating Carbon Nanotubes Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron and Synchrocyclotron Radiations. Integr Mol Med. 5: 1-8.

248. Heidari A. 2018. Two-Dimensional (2D) 1H or Proton NMR, 13C NMR, 15N NMR and 31P NMR Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation with the Passage of Time. Glob Imaging Insights. 3: 1-8.

249. Heidari A. 2018. FT-Raman Spectroscopy, Coherent Anti-Stokes Raman Spectroscopy (CARS) and Raman Optical Activity Spectroscopy (ROAS) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation. Glob Imaging Insights. 3: 1-8.

250. Heidari A. 2018. A Modern and Comprehensive Investigation of Inelastic Electron Tunneling Spectroscopy (IETS) and Scanning Tunneling Spectroscopy on Malignant and Benign Human Cancer Cells, Tissues and Tumors through Optimizing Synchrotron Microbeam Radiotherapy for Human Cancer Treatments and Diagnostics: An Experimental Biospectroscopic Comparative Study. Glob Imaging Insights. 3: 1-8.

251. Heidari A. 2018. A Hypertension Approach to Thermal Infrared Spectroscopy and Photothermal Infrared Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation with the Passage of Time. Glob Imaging Insights. 3: 1-8.

252. Heidari A. 2018. Incredible Natural-Abundance Double-Quantum Transfer Experiment (INADEQUATE), Nuclear Overhauser Effect Spectroscopy (NOESY) and Rotating Frame Nuclear Overhauser Effect Spectroscopy (ROESY) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. Glob Imaging Insights. 3: 1-8.

253. Heidari A. 2018. 2-Amino-9-((1S, 3R, 4R)-4-Hydroxy-3-(Hydroxymethyl)-2-Methylenecyclopentyl)-1H-Purin-6(9H)-One, 2-Amino-9-((1R, 3R, 4R)-4-Hydroxy-3-(Hydroxymethyl)-2-Methylenecyclopentyl)-1H-Purin-6(9H)-One, 2-Amino-9-((1R, 3R, 4S)-4-Hydroxy-3-(Hydroxymethyl)-2-Methylenecyclopentyl)-1H-Purin-6(9H)-One and 2-Amino-9-((1S, 3R, 4S)-4-Hydroxy-3-(Hydroxymethyl)-2-Methylenecyclopentyl)-1H-Purin-6(9H)-One-Enhanced Precatalyst Preparation Stabilization and Initiation Nano Molecules. Glob Imaging Insights. 3: 1-9.

254. Gobato R, Gobato MRR, Heidari A, et al. 2018. Spectroscopy and Dipole Moment of the Molecule C13H20BeLi2SeSi via Quantum Chemistry Using Ab Initio, Hartree-Fock Method in the Base Set CC-pVTZ and 6-311G**(3df, 3pd). American Journal of Quantum Chemistry and Molecular Spectroscopy. 2: 9-17.

255. Heidari A. 2018. Production of Electrochemiluminescence (ECL) Biosensor Using Os-Pd/HfC Nanocomposites for Detecting and Tracking of Human Gastroenterological Cancer Cells, Tissues and Tumors. Int J Med Nano Res. 5: 022-034.

256. Heidari A. 2018. Enhancing the Raman Scattering for Diagnosis and Treatment of Human Cancer Cells, Tissues and Tumors Using Cadmium Oxide (CdO) Nanoparticles. J Toxicol Risk Assess. 4: 012-025.

257. Heidari A. 2018. Human Malignant and Benign Human Cancer Cells and Tissues Biospectroscopic Analysis under Synchrotron Radiation Using Anti-Cancer Nano Drugs Delivery. Integr Mol Med, Volume 5: 1-13.

258. Heidari A. 2018. Analogous Nano Compounds of the Form M(C8H8)2 Exist for M = (Nd, Tb, Pu, Pa, Np, Th, and Yb)-Enhanced Precatalyst Preparation Stabilization and Initiation (EPPSI) Nano Molecules. Integr Mol Med. 5: 1-8.

259. Heidari A. 2018. Hadron Spectroscopy, Baryon Spectroscopy and Meson Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation. Integr Mol Med. 5: 1-8.

260. Gobato R, Gobato MRR, Heidari A. 2019. Raman Spectroscopy Study of the Nano Molecule C13H20BeLi2SeSi Using ab initio and Hartree-Fock Methods in the Basis Set CC-pVTZ and 6-311G** (3df, 3pd). International Journal of Advanced Engineering and Science. 7: 14-35.

261. Heidari A, Gobato R. 2019. Evaluating the Effect of Anti-Cancer Nano Drugs Dosage and Reduced Leukemia and Polycythemia Vera Levels on Trend of the Human Blood and Bone Marrow Cancers under Synchrotron Radiation. Trends in Res. 2: 1-8.

262. Heidari A, Gobato R. 2019. Assessing the Variety of Synchrotron, Synchrocyclotron and LASER Radiations and Their Roles and Applications in Human Cancer Cells, Tissues and Tumors Diagnosis and Treatment. Trends in Res. 2: 1-8.

263. Heidari A, R. Gobato R. 2019. Pros and Cons Controversy on Malignant Human Cancer Cells, Tissues and Tumors Transformation Process to Benign Human Cancer Cells, Tissues and Tumors. Trends in Res. 2: 1-8, 2019.

264. Heidari A, R. Gobato R. 2019. Three-Dimensional (3D) Simulations of Human Cancer Cells, Tissues and Tumors for Using in Human Cancer Cells, Tissues and Tumors Diagnosis and Treatment as a Powerful Tool in Human Cancer Cells, Tissues and Tumors Research and Anti-Cancer Nano Drugs Sensitivity and Delivery Area Discovery and Evaluation. Trends in Res. 2: 1-8.

265. Heidari A, Gobato R. 2019. Investigation of Energy Production by Synchrotron, Synchrocyclotron and LASER Radiations in Human Cancer Cells, Tissues and Tumors and Evaluation of Their Effective on Human Cancer Cells, Tissues and Tumors Treatment Trend. Trends in Res. 2: 1-8.

266. Heidari A, Gobato R. 2019. High-Resolution Mapping of DNA/RNA Hypermethylation and Hypomethylation Process in Human Cancer Cells, Tissues and Tumors under Synchrotron Radiation. Trends in Res. 2: 1-9.

267. Heidari A. 2019. A Novel and Comprehensive Study on Manufacturing and Fabrication Nanoparticles Methods and Techniques for Processing Cadmium Oxide (CdO) Nanoparticles Colloidal Solution. Glob Imaging Insights. 4: 1-8.

268. Heidari A. 2019. A Combined Experimental and Computational Study on the Catalytic Effect of Aluminum Nitride Nanocrystal (AlN) on the Polymerization of Benzene, Naphthalene, Anthracene, Phenanthrene, Chrysene and Tetracene. Glob Imaging Insights. 4: 1-8.

269. Heidari A. 2019. Novel Experimental and Three-Dimensional (3D) Multiphysics Computational Framework of Michaelis-Menten Kinetics for Catalyst Processes Innovation, Characterization and Carrier Applications. Glob Imaging Insights. 4: 1-8.

270. Heidari A. 2019. The Hydrolysis Constants of Copper (I) (Cu+) and Copper (II) (Cu2+) in Aqueous Solution as a Function of pH Using a Combination of pH Measurement and Biospectroscopic Methods and Techniques. Glob Imaging Insights. 4: 1-8.

271. Heidari A. 2019. Vibrational Biospectroscopic Study of Ginormous Virus-Sized Macromolecule and Polypeptide Macromolecule as Mega Macromolecules Using Attenuated Total Reflectance-Fourier Transform Infrared (ATR-FTIR) Spectroscopy and Mathematica 11.3. Glob Imaging Insights. 4: 1-8.

272. Heidari A. 2019. Three-Dimensional (3D) Imaging Spectroscopy of Carcinoma, Sarcoma, Leukemia, Lymphoma, Multiple Myeloma, Melanoma, Brain and Spinal Cord Tumors, Germ Cell Tumors, Neuroendocrine Tumors and Carcinoid Tumors under Synchrotron Radiation. Glob Imaging Insights. 4: 1-9.

273. Gobato R, Gobato MRR, A. Heidari A. 2019. Storm Vortex in the Center of Paraná State on June 6, 2017: A Case Study. Sumerianz Journal of Scientific Research. 2: 24-31.

274. Gobato R, Gobato MRR, Heidari A. 2019. Attenuated Total Reflection-Fourier Transform Infrared (ATR-FTIR) Spectroscopy Study of the Nano Molecule C13H20BeLi2SeSi Using ab initio and Hartree-Fock Methods in the Basis Set RHF/CC-pVTZ and RHF/6-311G** (3df, 3pd): An Experimental Challenge to Chemists. Chemistry Reports. 2: 1-26.

275. Heidari A. 2019. Three-Dimensional (3D) Imaging Spectroscopy of Carcinoma, Sarcoma, Leukemia, Lymphoma, Multiple Myeloma, Melanoma, Brain and Spinal Cord Tumors, Germ Cell Tumors, Neuroendocrine Tumors and Carcinoid Tumors under Synchrocyclotron Radiation. Res Adv Biomed Sci Technol. 1: 01-17.

276. Gobato R, Gobato MRR, Heidari A, et al. 2019. New Nano-Molecule Kurumi-C13H20BeLi2SeSi/C13H19BeLi2SeSi, and Raman Spectroscopy Using ab initio, Hartree-Fock Method in the Base Set CC-pVTZ and 6-311G** (3df, 3pd). J Anal Pharm Res. 8: 1-6.

277. Heidari A, Esposito J, Caissutti A. 2019. The Importance of Attenuated Total Reflectance Fourier Transform Infrared (ATR-FTIR) and Raman Bio¬spectroscopy of Single-Walled Carbon Nanotubes (SWCNT) and Multi-Walled Carbon Nanotubes (MWCNT) in Interpreting Infrared and Raman Spectra of Human Cancer Cells, Tissues and Tumors. Oncogen. 2: 1-21.

278. Heidari A. 2019. Mechanism of Action and Their Side Effects at a Glance Prevention, Treatment and Management of Immune System and Human Cancer Nano Chemotherapy. Nanosci Technol. 6: 1-4.

279. Heidari A, Esposito J, Caissutti A. 2019. The Quantum Entanglement Dynamics Induced by Non-Linear Interaction between a Moving Nano Molecule and a Two-Mode Field with Two-Photon Transitions Using Reduced von Neumann Entropy and Jaynes-Cummings Model for Human Cancer Cells, Tissues and Tumors Diagnosis. Int J Crit Care Emerg Med. 5: 71-84.

280. Heidari A, Esposito J, Caissutti A. 2019. Palytoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. J Pharm Drug Res. 3: 150-170.

281. Heidari A, Esposito J, Caissutti A. 2019. Aplysiatoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. J Chem Sci Eng. 2: 70-89.

282. Heidari A, Esposito J, Caissutti A. 2019. Cyanotoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Br J Med Health Res. 6: 21-60.

283. Heidari A. 2019. Potential and Theranostics Applications of Novel Anti-Cancer Nano Drugs Delivery Systems in Preparing for Clinical Trials of Synchrotron Microbeam Radiation Therapy (SMRT) and Synchrotron Stereotactic Radiotherapy (SSRT) for Treatment of Human Cancer Cells, Tissues and Tumors Using Image Guided Synchrotron Radiotherapy (IGSR). Ann Nanosci Nanotechnol. 3: 1006-1019.

284. Heidari A, Esposito J, Caissutti A. 2019. Study of Anti-Cancer Properties of Thin Layers of Cadmium Oxide (CdO) Nanostructure. Int J Analyt Bioanalyt Methods 1: 3-22.

285. Heidari A, Esposito J, Caissutti A. 2019. Alpha-Conotoxin, Omega-Conotoxin and Mu-Conotoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. International Journal of Advanced Chemistry. 7: 52-66.

286. Heidari A. 2019. Clinical and Medical Pros and Cons of Human Cancer Cells’ Enzymotherapy, Immunotherapy, Chemotherapy, Radiotherapy, Hormone Therapy and Targeted Therapy Process under Synchrotron Radiation: A Case Study on Mechanism of Action and Their Side Effects. Parana Journal of Science and Education (PJSE). 5: 1-23.

287. Heidari A. 2019. The Importance of the Power in CMOS Inverter Circuit of Synchrotron and Synchrocyclotron Radiations Using 50 (nm) and 100 (nm) Technologies and Reducing the Voltage of Power Supply. Radiother Oncol Int. 1: 1002-1015.

288. Heidari, J. Esposito, A. Caissutti, “The Importance of Quantum Hydrodynamics (QHD) Approach to Single-Walled Carbon Nanotubes (SWCNT) and Multi-Walled Carbon Nanotubes (MWCNT) in Genetic Science”, SCIOL Genet Sci. 2 (1): 113-129, 2019.

289. Heidari A, Esposito J, Caissutti A. 2019. Anatoxin-a and Anatoxin-a(s) Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Saudi J Biomed Res. 4: 174-194.

290. Gobato R, Gobato MRR, Heidari A, 2019. Evidence of Tornado Storm Hit the Counties of Rio Branco do Ivaí and Rosario de Ivaí, Southern Brazil. Sci Lett. 7: 32-40.

291. Jeyaraj M, Mahalingam V, Indhuleka A, et al. 2019. Chemical Analysis of Surface Water Quality of River Noyyal Connected Tank in Tirupur District, Tamil Nadu, India. Water and Energy International. 62: 63-68.

292. Heidari A, Esposito J, Caissutti A. 2019. 6-Methoxy-8-[[6-Methoxy-8-[[6-Methoxy-2-Methyl-1-(2-Methylpropyl)-3,4- Dihydro-1H-Isoquinolin-7-yl] Oxy]-2-Methyl-1-(2-Methylpropyl)-3,4-Dihydro-1H-Isoquinolin-7-yl] Oxy]-2-Methyl-1-(2-Methylpropyl)-3,4-Dihydro-1H-Isoquinolin-7-ol Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. J. Adv. Phys. Chem. 1: 1-6.

293. Heidari A, Esposito J, Caissutti A. 2019. Shiga Toxin and Shiga-Like Toxin (SLT) Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Annal Biostat & Biomed Appli. 2: 1-4.

294. Heidari A, Esposito J, Caissutti A. 2019. Alpha-Bungarotoxin, Beta-Bungarotoxin and Kappa-Bungarotoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Archives of Pharmacology and Pharmaceutical Sciences, ReDelve. 1: 1-24.

295. Heidari A, Esposito J, Caissutti A. 2019. Okadaic Acid Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Int J Analyt Bioanalyt Methods. 1: 1-19.

296. Heidari A. 2019. Investigation of the Processes of Absorption, Distribution, Metabolism and Elimination (ADME) as Vital and Important Factors for Modulating Drug Action and Toxicity. Open Access J Oncol. 2: 180010-180012.

297. Heidari A, Esposito J, Caissutti A. 2019. Pertussis Toxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Chemistry Reports. 1: 1-5.

298. Gobato R, Gobato MRR, Heidari A. 2019. Rhodochrosite as Crystal Oscillator. Am J Biomed Sci & Res. 3: 187.

299. Heidari A, Esposito J, Caissutti A. 2019. Tetrodotoxin (TTX) Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Journal of New Developments in Chemistry. 3: 26-48.

300. Heidari A, Esposito J, Caissutti A. 2019. The Importance of Analysis of Vibronic-Mode Coupling Structure in Vibrational Spectra of Supramolecular Aggregates of (CA*M) Cyanuric Acid (CA) and Melamine (M) beyond the Franck-Condon Approximation”, Journal of Clinical and Medical Images. 2: 1-20.

301. Heidari A, Esposito J, Caissutti A. 2019. Microcystin-LR Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Malaysian Journal of Chemistry. 21: 70-95.

302. Heidari A, Esposito J, Caissutti A. 2019. Botulinum Toxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Journal of Mechanical Design and Vibration. 1: 1-15.

303. Heidari A, Esposito J, Caissutti A. 2019. Domoic Acid (DA) Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Clinical Oncology Journal. 2: 03-07.

304. Heidari A, Esposito J, Caissutti A. 2019. Surugatoxin (SGTX) Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Clinical Oncology Journal. 2: 14-18.

305. Heidari A, Esposito J, Caissutti A. 2019. Decarbamoylsaxitoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Clinical Oncology Journal 1. 2: 19-23.

306. Heidari A, Esposito J, Caissutti A. 2019. Gonyautoxin (GTX) Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Clinical Oncology Journal. 2: 24-28.

307. Heidari A, Esposito J, Caissutti A. 2019. Hislrionicotoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Drug Delivery Research.1: 01-06.

308. Heidari A, Esposito J, Caissutti A. 2019. Dihydrokainic Acid Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Drug Delivery Research. 1: 07-12.

309. Heidari A, Esposito J, Caissutti A. 2019. Aflatoxin B1 (AFB1), B2 (AFB2), G1 (AFG1), G2 (AFG2), M1 (AFM1), M2 (AFM2), Q1 (AFQ1) and P1 (AFP1) Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Drug Delivery Research. 1: 25-32.

310. Heidari A, Esposito J, Caissutti A. 2019. Mycotoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Drug Delivery Research. 1: 13-18.

311. Heidari A, Esposito J, Caissutti A. 2019. Bufotoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Drug Delivery Research. 1: 19-24.

312. Heidari A, Esposito J, Caissutti A. 2019. Kainic Acid (Kainite) Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Journal of Neurology 1. 2: 02-07.

313. Heidari A, Esposito J, Caissutti A. 2019. Nereistoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Journal of Neurology. 2: 19-24.

314. Heidari A, Esposito J, Caissutti A. 2019. Spider Toxin and Raventoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Parana Journal of Science and Education. 5: 1-28.

315. Heidari A, Esposito J, Caissutti A. 2019. Ochratoxin A, Ochratoxin B, Ochratoxin C, Ochratoxin α and Ochratoxin TA Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Drug Delivery Research. 2: 03-10.

316. Heidari A, Esposito J, Caissutti A. 2019. Brevetoxin A and B Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Drug Delivery Research. 2: 11-16.

317. Heidari A, Esposito J, Caissutti A. 2019. Lyngbyatoxin-a Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Drug Delivery Research. 2: 23-28.

318. Heidari A, Esposito J, Caissutti A. 2019. Balraechotoxin (BTX) Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Journal of Neurology. 1. 3: 01-05.

319. Heidari A, Esposito J, Caissutti A. 2019. Hanatoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Int. J. Pharm. Sci. 57: 21-32.

320. Heidari A, Esposito J, Caissutti A. 2019. Neurotoxin and Alpha-Neurotoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. J Biomed Sci & Res. 3: 550-563.

321. Heidari A, Esposito J, Caissutti A. 2019. Antillatoxin (ATX) Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure. American Journal of Optics and Photonics. 7: 18-27.

322. Gobato R, Gobato MRR, Heidari A. 2019. Calculation by UFF Method of Frequencies and Vibrational Temperatures of the Unit Cell of the Rhodochrosite Crystal. International Journal of Advanced Chemistry. 7: 77-81.

323. Heidari A, Esposito J, Caissutti A. 2019. Analysis of Vibronic-Mode Coupling Structure in Vibrational Spectra of Fuzeon as a 36 Amino Acid Peptide for HIV Therapy beyond the Multi-Dimensional Franck-Condon Integrals Approximation. International Journal of Advanced Chemistry. 7: 82-96.

324. Heidari A, Esposito J, Caissutti A. 2019. Debromoaplysiatoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Applied Chemistry. 2: 17-54.

325. Heidari A, Esposito J, Caissutti A. 2019. Enterotoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. JRL J Sci Technol. vol1-iss2: jst1001. 1-16.

326. Gobato R, Gobato MRR, Heidari A, et al. 2019. Rhodochrosite Optical Indicatrix. Peer Res Nest. 1: 1-2.

327. Heidari A, Esposito J, Caissutti A. 2019. Anthrax Toxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Research & Reviews: Journal of Computational Biology. 8: 23-51.

328. Heidari A, Esposito J, Caissutti A. 2019. Kalkitoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Can J Biomed Res & Tech. 2: 1-21.

329. Heidari A, Esposito J, Caissutti A. 2019. Neosaxitoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Clin Case Studie Rep. 2: 1-14.

330. Heidari A, Esposito J, Caissutti A. 2019. 6-Methoxy-8-[[6-Methoxy-8-[[6-Methoxy-2-Methyl-1-(2-Methylpropyl)-3,4-Dihydro-1H-Isoquinolin-7-yl] Oxy]-2-Methyl-1-(2-Methylpropyl)-3,4-Dihydro-1H-Isoquinolin-7-yl] Oxy]-2-Methyl-1-(2-Methylpropyl)-3,4-Dihydro-1H-Isoquinolin-7-ol Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Clin Case Studie Rep. 2: 1-14.

331. Heidari A. 2019. Comparison of Synchrotron Radiation and Synchrocyclotron Radiation Performance in Monitoring of Human Cancer Cells, Tissues and Tumors. Clin Case Studie Rep. 2: 1-12.

332. Heidari A, Esposito J, Caissutti A. 2019. Kalkitoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Clin Case Studie Rep. 2: 1-14.

333. Heidari A, Esposito J, Caissutti A. 2019. Diphtheria Toxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis: A Spectroscopic Study on an Anti-Cancer Drug. Clin Case Studie Rep. 2: 1-14.

334. Heidari A, Esposito J, Caissutti A. 2019. Symbiodinolide Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Clin Case Studie Rep. 2: 1-14.

335. Heidari A, Esposito J, Caissutti A. 2019. Saxitoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Am J Exp Clin Res. 6: 364-377.

336. Gobato R, Gobato MRR, A. Heidari A, et al. 2019. Hartree-Fock Methods Analysis Protonated Rhodochrosite Crystal and Potential in the Elimination of Cancer Cells through Synchrotron Radiation”, Radiation Science and Technology. 5: 27-36.

337. Gobato R, Dosh IKK, Heidari A. et al. Perspectives on the Elimination of Cancer Cells Using Rhodochrosite Crystal Through Synchrotron Radiation, and Absorption the Tumoral and Non-Tumoral Tissues. Arch Biomed Eng & Biotechnol. 3: 1-2.

338. Gobato R, Gobato MRR, Heidari A. et al. 2019. Unrestricted Hartree-Fock Computational Simulation in a Protonated Rhodochrosite Crystal. Phys Astron Int J. 3: 220-228.

339. Heidari A, Schmitt K, Henderson M, et al. 2019. Perspectives on Sub-Nanometer Level of Electronic Structure of the Synchrotron with Mendelevium Nanoparticles for Elimination of Human Cancer Cells, Tissues and Tumors Treatment Using Mathematica 12.0. Journal of Energy Conservation. 2: 46-73.

340. Heidari A, Schmitt K, Henderson M, et al. 2019. Simulation of Interaction of Synchrotron Radiation Emission as a Function of the Beam Energy and Bohrium Nanoparticles Using 3D Finite Element Method (FEM) as an Optothermal Human Cancer Cells, Tissues and Tumors Treatment”, Current Research in Biochemistry and Molecular Biology. 1: 17-44.

341. Heidari A, Schmitt K, Henderson M, et al. 2019. Investigation of Interaction between Synchrotron Radiation and Thulium Nanoparticles for Human Cancer Cells, Tissues and Tumors Treatment”, European Journal of Scientific Exploration. 2: 1-8.

342. Heidari A, Schmitt K, Henderson M, et al. 2020. The Effectiveness of the Treatment Human Cancer Cells, Tissues and Tumors Using Darmstadtium Nanoparticles and Synchrotron Radiation. International Journal of Advanced Engineering and Science. 9: 9-39.

343. Heidari A, Schmitt K, Henderson M, et al. 2019. Using 3D Finite Element Method (FEM) as an Optothermal Human Cancer Cells, Tissues and Tumors Treatment in Simulation of Interaction of Synchrotron Radiation Emission as a Function of the Beam Energy and Uranium Nanoparticles”, Nano Prog. 1: 1-6.

344. Heidari A, Schmitt K, Henderson M, et al. 2019. A New Approach to Interaction between Beam Energy and Erbium Nanoparticles. Saudi J Biomed Res. 4: 372-396.

345. Heidari A, Schmitt K, Henderson M, et al. 2019. Consideration of Energy Functions and Wave Functions of the Synchrotron Radiation and Samarium Nanoparticles Interaction During Human Cancer Cells, Tissues and Tumors Treatment Process. Sci. Int. (Lahore). 31: 885-908.

346. Heidari A, Schmitt K, Henderson M, et al. 2019. An Outlook on Optothermal Human Cancer Cells, Tissues and Tumors Treatment Using Lanthanum Nanoparticles under Synchrotron Radiation. Journal of Materials Physics and Chemistry. 7: 29-45.

347. Heidari A, Schmitt K, Henderson M, et al. 2019. Effectiveness of Einsteinium Nanoparticles in Optothermal Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation. Journal of Analytical Oncology. 8: 43-62.

348. Heidari A, Schmitt K, Henderson M, et al. 2019. Study of Relation between Synchrotron Radiation and Dubnium Nanoparticles in Human Cancer Cells, Tissues and Tumors Treatment Process. Int. Res. J. Applied Sci. 4: 1-20.

349. Heidari A, Schmitt K, Henderson M, et al. 2019. A Novel Prospect on Interaction of Synchrotron Radiation Emission and Europium Nanoparticles for Human Cancer Cells, Tissues and Tumors Treatment. European Modern Studies Journal. 3: 11-24.

350. Heidari A, Esposito J, Caissutti A. 2019. The Importance of Analysis of Vibronic-Mode Coupling Structure in Vibrational Spectra of Supramolecular Aggregates of (CA*M) Cyanuric Acid (CA) and Melamine (M) beyond the Franck-Condon Approximation”, Journal of Clinical and Medical Images. 2: 1-20.

351. Heidari A, Esposito J, Caissutti A. 2019. Microcystin-LR Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Malaysian Journal of Chemistry. 21: 70-95.

352. Heidari A, Esposito J, Caissutti A. 2019. Botulinum Toxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Journal of Mechanical Design and Vibration. 1: 1-15.

353. Heidari A, Esposito J, Caissutti A. 2019. Domoic Acid (DA) Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Clinical Oncology Journal. 2: 03-07.

354. Heidari A, Esposito J, Caissutti A. 2019. Surugatoxin (SGTX) Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Clinical Oncology Journal. 2: 14-18.

355. Heidari A, Esposito J, Caissutti A. 2019. Decarbamoylsaxitoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Clinical Oncology Journal 1. 2: 19-23.

356. Heidari A, Esposito J, Caissutti A. 2019. Gonyautoxin (GTX) Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Clinical Oncology Journal. 2: 24-28.

357. Heidari A, Esposito J, Caissutti A. 2019. Hislrionicotoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Drug Delivery Research.1: 01-06.

358. Heidari A, Esposito J, Caissutti A. 2019. Dihydrokainic Acid Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Drug Delivery Research. 1: 07-12.

359. Heidari A, Esposito J, Caissutti A. 2019. Aflatoxin B1 (AFB1), B2 (AFB2), G1 (AFG1), G2 (AFG2), M1 (AFM1), M2 (AFM2), Q1 (AFQ1) and P1 (AFP1) Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Drug Delivery Research. 1: 25-32.

360. Heidari A, Esposito J, Caissutti A. 2019. Mycotoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Drug Delivery Research. 1: 13-18.

361. Heidari A, Esposito J, Caissutti A. 2019. Bufotoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Drug Delivery Research. 1: 19-24.

362. Heidari A, Esposito J, Caissutti A. 2019. Kainic Acid (Kainite) Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Journal of Neurology 1. 2: 02-07.

363. Heidari A, Esposito J, Caissutti A. 2019. Nereistoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Journal of Neurology. 2: 19-24.

364. Heidari A, Esposito J, Caissutti A. 2019. Spider Toxin and Raventoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Parana Journal of Science and Education. 5: 1-28.

365. Heidari A, Esposito J, Caissutti A. 2019. Ochratoxin A, Ochratoxin B, Ochratoxin C, Ochratoxin α and Ochratoxin TA Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Drug Delivery Research. 2: 03-10.

366. Heidari A, Esposito J, Caissutti A. 2019. Brevetoxin A and B Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Drug Delivery Research. 2: 11-16.

367. Heidari A, Esposito J, Caissutti A. 2019. Lyngbyatoxin-a Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Drug Delivery Research. 2: 23-28.

368. Heidari A, Esposito J, Caissutti A. 2019. Balraechotoxin (BTX) Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Cientific Journal of Neurology. 1. 3: 01-05.

369. Heidari A, Esposito J, Caissutti A. 2019. Hanatoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Int. J. Pharm. Sci. 57: 21-32.

370. Heidari A, Esposito J, Caissutti A. 2019. Neurotoxin and Alpha-Neurotoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. J Biomed Sci & Res. 3: 550-563.

371. Heidari A, Esposito J, Caissutti A. 2019. Antillatoxin (ATX) Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure. American Journal of Optics and Photonics. 7: 18-27.

372. Gobato R, Gobato MRR, Heidari A. 2019. Calculation by UFF Method of Frequencies and Vibrational Temperatures of the Unit Cell of the Rhodochrosite Crystal. International Journal of Advanced Chemistry. 7: 77-81.

373. Heidari A, Esposito J, Caissutti A. 2019. Analysis of Vibronic-Mode Coupling Structure in Vibrational Spectra of Fuzeon as a 36 Amino Acid Peptide for HIV Therapy beyond the Multi-Dimensional Franck-Condon Integrals Approximation. International Journal of Advanced Chemistry. 7: 82-96.

374. Heidari A, Esposito J, Caissutti A. 2019. Debromoaplysiatoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Applied Chemistry. 2: 17-54.

375. Heidari A, Esposito J, Caissutti A. 2019. Enterotoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. JRL J Sci Technol. vol1-iss2: jst1001. 1-16.

376. Gobato R, Gobato MRR, Heidari A, et al. 2019. Rhodochrosite Optical Indicatrix. Peer Res Nest. 1: 1-2.

377. Heidari A, Esposito J, Caissutti A. 2019. Anthrax Toxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Research & Reviews: Journal of Computational Biology. 8: 23-51.

378. Heidari A, Esposito J, Caissutti A. 2019. Kalkitoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Can J Biomed Res & Tech. 2: 1-21.

379. Heidari A, Esposito J, Caissutti A. 2019. Neosaxitoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Clin Case Studie Rep. 2: 1-14.

380. Heidari A, Esposito J, Caissutti A. 2019. 6-Methoxy-8-[[6-Methoxy-8-[[6-Methoxy-2-Methyl-1-(2-Methylpropyl)-3,4-Dihydro-1H-Isoquinolin-7-yl] Oxy]-2-Methyl-1-(2-Methylpropyl)-3,4-Dihydro-1H-Isoquinolin-7-yl] Oxy]-2-Methyl-1-(2-Methylpropyl)-3,4-Dihydro-1H-Isoquinolin-7-ol Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Clin Case Studie Rep. 2: 1-14.

381. Heidari A. 2019. Comparison of Synchrotron Radiation and Synchrocyclotron Radiation Performance in Monitoring of Human Cancer Cells, Tissues and Tumors. Clin Case Studie Rep. 2: 1-12.

382. Heidari A, Esposito J, Caissutti A. 2019. Kalkitoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Clin Case Studie Rep. 2: 1-14.

383. Heidari A, Esposito J, Caissutti A. 2019. Diphtheria Toxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis: A Spectroscopic Study on an Anti-Cancer Drug. Clin Case Studie Rep. 2: 1-14.

384. 285. Heidari A, Esposito J, Caissutti A. 2019. Symbiodinolide Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Clin Case Studie Rep. 2: 1-14.

385. Heidari A, Esposito J, Caissutti A. 2019. Saxitoxin Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Am J Exp Clin Res. 6: 364-377.

386. Gobato R, Gobato MRR, A. Heidari A, et al. 2019. Hartree-Fock Methods Analysis Protonated Rhodochrosite Crystal and Potential in the Elimination of Cancer Cells through Synchrotron Radiation”, Radiation Science and Technology. 5: 27-36.

387. Gobato R, Dosh IKK, Heidari A. et al. Perspectives on the Elimination of Cancer Cells Using Rhodochrosite Crystal Through Synchrotron Radiation, and Absorption the Tumoral and Non-Tumoral Tissues. Arch Biomed Eng & Biotechnol. 3: 1-2.

388. Gobato R, Gobato MRR, Heidari A. et al. 2019. Unrestricted Hartree-Fock Computational Simulation in a Protonated Rhodochrosite Crystal. Phys Astron Int J. 3: 220-228.

389. Heidari A, Schmitt K, Henderson M, et al. 2019. Perspectives on Sub-Nanometer Level of Electronic Structure of the Synchrotron with Mendelevium Nanoparticles for Elimination of Human Cancer Cells, Tissues and Tumors Treatment Using Mathematica 12.0. Journal of Energy Conservation. 2: 46-73.

390. Heidari A, Schmitt K, Henderson M, et al. 2019. Simulation of Interaction of Synchrotron Radiation Emission as a Function of the Beam Energy and Bohrium Nanoparticles Using 3D Finite Element Method (FEM) as an Optothermal Human Cancer Cells, Tissues and Tumors Treatment”, Current Research in Biochemistry and Molecular Biology. 1: 17-44.

391. Heidari A, Schmitt K, Henderson M, et al. 2019. Investigation of Interaction between Synchrotron Radiation and Thulium Nanoparticles for Human Cancer Cells, Tissues and Tumors Treatment”, European Journal of Scientific Exploration. 2: 1-8.

392. Heidari A, Schmitt K, Henderson M, et al. 2020. The Effectiveness of the Treatment Human Cancer Cells, Tissues and Tumors Using Darmstadtium Nanoparticles and Synchrotron Radiation. International Journal of Advanced Engineering and Science. 9: 9-39.

393. Heidari A, Schmitt K, Henderson M, et al. 2019. Using 3D Finite Element Method (FEM) as an Optothermal Human Cancer Cells, Tissues and Tumors Treatment in Simulation of Interaction of Synchrotron Radiation Emission as a Function of the Beam Energy and Uranium Nanoparticles”, Nano Prog. 1: 1-6.

394. Heidari A, Schmitt K, Henderson M, et al. 2019. A New Approach to Interaction between Beam Energy and Erbium Nanoparticles. Saudi J Biomed Res. 4: 372-396.

 

395. Heidari A, Schmitt K, Henderson M, et al. 2019. Consideration of Energy Functions and Wave Functions of the Synchrotron Radiation and Samarium Nanoparticles Interaction During Human Cancer Cells, Tissues and Tumors Treatment Process. Sci. Int. (Lahore). 31: 885-908.

396. 297. Heidari A, Schmitt K, Henderson M, et al. 2019. An Outlook on Optothermal Human Cancer Cells, Tissues and Tumors Treatment Using Lanthanum Nanoparticles under Synchrotron Radiation. Journal of Materials Physics and Chemistry. 7: 29-45.

397. Heidari A, Schmitt K, Henderson M, et al. 2019. Effectiveness of Einsteinium Nanoparticles in Optothermal Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation. Journal of Analytical Oncology. 8: 43-62.

398. Heidari A, Schmitt K, Henderson M, et al. 2019. Study of Relation between Synchrotron Radiation and Dubnium Nanoparticles in Human Cancer Cells, Tissues and Tumors Treatment Process. Int. Res. J. Applied Sci. 4: 1-20.

399. Heidari A, Schmitt K, Henderson M, et al. 2019. A Novel Prospect on Interaction of Synchrotron Radiation Emission and Europium Nanoparticles for Human Cancer Cells, Tissues and Tumors Treatment. European Modern Studies Journal. 3: 11-24.

400. Heidari A, Schmitt K, Henderson M, et al. 2020. Study of Copernicium Nanoparticles Delivery Process in Human Cancer Cells, Tissues and

401. Tumors Under Gravitationally Accelerating Ions Through the Super Contorted ‘Tubular’ Polar Areas of Magnetic Fields. Adv. Sci. Eng. Med. 12: 571-575.

402. Heidari A, Schmitt K, Henderson M, et al. 2020. Specific and Selective Targeting Human Cancer Cells, Tissues and Tumors with Seaborgium Nanoparticles as Carriers and Nano-Enhanced Drug Delivery and Therapeutic in Cancer Treatment and Beyond under Synchrotron Radiation. Parana Journal of Science and Education. 6: 8-50.

403. Heidari A. 2020. Enhancement of Visible Synchrotron Absorption in Cadmium Oxide (CdO) Nanoparticles Thin Layer Using Plasmonic Nanostructures: A Two-Dimensional (2D) Simulation. Sci. Int. (Lahore). 32: 329-354.

404. Heidari A, Schmitt K, Henderson M, et al. 2020. Nanomedicines Based Americium Nanoparticles Drug Delivery Systems for Anti-Cancer Targeting and Treatment under Synchrotron Radiation. Dent Oral Maxillofac Res. 6: 1-18.

405. Heidari A, Schmitt K, Henderson M, et al. 2020. Study of Exclusively Focused on Translational Aspects of Praseodymium Nanoparticles Drug Delivery under Super Contorted Tubular Polar Areas of Magnetic Fields as Optothermal Human Gum Cancer Cells, Tissues and Tumors Treatment Technique under Synchrotron Radiation. Dent Oral Maxillofac Res. 6: 1-17.

406. Heidari A, Schmitt K, Henderson M, et al. 2020. Research Activities on Novel Drug Delivery Systems of Astatine Nanoparticles in Human Gum Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation. Dent Oral Maxillofac Res. 6:1-17.

407. Heidari A, Schmitt K, Henderson M, et al. 2020. Unprecedented Progresses of Biomedical Nanotechnology during Conventional Smart Drug Delivery Systems (SDDSs) of Francium Nanoparticles in Human Gum Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation. Dent Oral Maxillofac Res. 6: 1-20.

408. Heidari A, Schmitt K, Henderson M, et al. 2020. Non-Invasive Image-Guided Targeted Drug Delivery of Radium Nanoparticles in Human Gum Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation. Dent Oral Maxillofac Res. 6:1-20.

409. Heidari A. 2018. A Novel Approach to Reduce Toxicities and to Improve Bioavailabilities of DNA/RNA of Human Cancer Cells-Containing Cocaine (Coke), Lysergide (Lysergic Acid Diethyl Amide or LSD), Δ9-Tetrahydrocannabinol (THC) [(-)-trans-Δ?-Tetrahydrocannabinol], Theobromine (Xantheose), Caffeine, Aspartame (APM) (NutraSweet) and Zidovudine (ZDV) [Azidothymidine (AZT)] as Anti-Cancer Nano Drugs by Coassembly of Dual Anti-Cancer Nano Drugs to Inhibit DNA/RNA of Human Cancer Cells Drug Resistance. Ely J Mat Sci Tech. 1: 1-2.

410. Heidari A. 2020. Investigation of Prevention, Protection and Treatment of Lopinavir Effectiveness on Coronavirus Disease-2019 (COVID-19) Infection Using Fourier Transform Raman (FT-Raman) Biospectroscopy. AJAN. 1: 36-60.

411. Heidari A. 2020. Stimulated FT-IR Biospectroscopic Study of Lopinavir Protective and Therapeutic Effect as a Potent Drug on Coronavirus Disease-2019 (COVID-19) Infection. AJAN. 1: 61-85.

412. Heidari A, Gobato R. 2020. The Comparison of Active Cooperative and Traditional Teaching Methods in Nanoch emistry Students' Satisfaction and Learning of Clinical Nanochemistry. AJAN. 1: 86-112.

413. Heidari A, Gobato R. 2020. Study of Nanochemistry Students' Satisfaction and Learning with Blended Education: An Action Research Study. AJAN. 1: 113-138.

414. Heidari A. 2020. Study of Stimulated Raman Biospectroscopy in Lopinavir as a Potent Drug against Coronavirus Disease-2019 (COVID-19) Infection. AJAN. 1: 139-163.

415. Heidari A. In Situ Monitoring of Ritonavir Protective and Therapeutic Influence as a Potent Drug on Coronavirus Disease-2019 (COVID-19) Infection by Attenuated Total Reflectance-Fourier Transform Infrared (ATR-FTIR Fingerprint) Biospectroscopy. Saudi J Biomed Res. 5: 128-151.

416. Heidari A. 2020. A Stimulated FT-IR Biospectroscopic Study of Ritonavir Protective and Therapeutic Effect as a Potent Drug on Coronavirus Disease-2019 (COVID-19) Infection. Saudi J Biomed Res. 5: 152-174.

417. Heidari A. 2020. Application of Single-Walled Carbon Nanotubes (SWCNT) in the Production of Glucose Biosensors and Improving Their Performance Using Gold Colloidal Nanoparticles and Usage of Polyaniline Nanostructure-Based Biosensors for Detecting Glucose and Cholesterol. Malaysian Journal of Chemistry, Vol. 22: 121-162.

418. Heidari A. 2020. In Situ Monitoring of Lopinavir Protective and Therapeutic Influence as a Potent Drug on Coronavirus Disease-2019 (COVID-19) Infection by Attenuated Total Reflectance-Fourier Transform Infrared (ATR-FTIR Fingerprint) Biospectroscopy. Parana Journal of Science and Education (PJSE). 6: 29-60.

419. Heidari A, Schmitt K, Henderson M, et al. 2020. Modelling and Simulation of Interaction of Magnetobremsstrahlung Radiation and Nihonium Nanoparticles Using Bending Magnets, Undulators and/or Wigglers in Storage Rings for Human Cancer Cells, Tissues and Tumors Treatment. Sci. Int. (Lahore). 32: 361-385.

420. Heidari A. 2020. Oncological Study of Thin Layers of Imatinib Molecule Nanostructure for Chronic Myelogenous Leukemia (CML), Acute Lymphocytic Leukemia (ALL), Philadelphia Chromosome-Positive (Ph+), Gastrointestinal Stromal Tumors (GIST), Hypereosinophilic Syndrome (HES), Chronic Eosinophilic Leukemia (CEL), Systemic Mastocytosis and Myelodysplastic Syndrome Treatment. Adv. Sci. Eng. Med. 12: 753-760.

421. Heidari A. 2019. Infrastructure of Synchrotronic Biosensor Based on Semiconductor Device Fabrication for Tracking, Monitoring, Imaging, Measuring, Di-agnosing and Detecting Cancer Cells. Semiconductor Science and Information Devices. 2: 29-57.

422. Heidari A. 2020. In Situ Characterization of Lopinavir by ATR-FTIR Biospectroscopy. Comp utational Chemistry. 8: 27-42.

423. Heidari A. 2020. Study of Stimulated Raman Biospectroscopy in Ritonavir as a Potent Drug against Coronavirus Disease-2019 (COVID-19) Infection. Saudi J Biomed Res. 5: 188-211.

424. Heidari A. 2020. Investigation of Prevention, Protection and Treatment of Ritonavir Effectiveness on Coronavirus Disease-2019 (COVID-19) Infection Using Fourier Transform Raman (FT-Raman) Biospectroscopy. Saudi J Biomed Res. 5: 212-235.

425. Gobato R, Heidari A. 2020. Cyclone Bomb Hits Southern Brazil in Mid-Winter 2020. Journal of Atmospheric Science Research. 3: 8-12.

426. Heidari A. 2020. A Biospectroscopic and Bioimaging Analysis of Imatinib Nanoparticles Aggregation Linked to DNA/RNA by Bcr-Abl Tyrosine-Kinase Inhibitors (TKI) with Various Chain Length. Sci. Int. (Lahore). 32: 459-482.

427. Heidari A. 2019. Future Perspectives and Shaping Trends in Gastroenterology and Digestive Disorders. J Health Med Res. 1: 47-48.

428. Heidari A. 2020. Latest Research Works and Innovations in the Field of Oncology. J Carcinog Mutagen. 11: 126.

429. Heidari A. 2020. Investigating the Effect of Synchrotron Removal from Raman Spectra for Quantitative Analysis of Cancer Tissues. Current Research in Cytology and Histology. 1: 29-35.

430. Gobato R, Gobato MRR, Heidari A. 2020. Potential in the Elimination of Cancer Cells through Synchrotron Radiation: A Hartree-Fock Methods Analysis Protonated Rhodochrosite Crystal. Dent Oral Maxillofac Res. 6: 1-8.

431. Heidari A, Gobato R. 2020. Infrared Spectrum, Apt Charges and Mulliken of Hartreefock Methods Protonated Rhodochrosite Crystal. Dent Oral Maxillofac Res. 6: 1-8.

432. Gobato R, Dosh IKK, Heidari A, et al. 2020. A Novel and Exquisite Approach to Single Layer Bioinorganic Membranes. Dent Oral Maxillofac Res. 6: 1-4.

433. Heidari A. 2020. Manufacture of Synchrotronic Biosensor Using Os-Pd/HfC Nanocomposite for Tracking, Monitoring, Imaging, Measuring, Diagnosing and Detecting Cancer Cells. Journal of Clinical and Translational Oncology. 1: 20-26.

434. Heidari A. 2020. Role and Applications of Synchrotron Removal from Raman Spectra for Quantitative Analysis of Cancer Tissues. Aswan University Journal of Environmental Studies (AUJES). 1: 57-96.

435. Heidari A. 2020. Investigation of Role and Applications of Polymeric Stimuli-Responsive Nanocomposite Materials as Biomolecules for Cancer Targeted in Anti-Cancer Nano Drugs Delivery Agents and Systems. Parana Journal of Science and Education (PJSE). 6: 39-74.

436. Gobato R, Heidari, A, Mitra A, et al. 2020. Vortex Cotes’s Spiral in an Extratropical Cyclone in the Southern Coast of Brazil”, Archives in Biomedical Engineering & Biotechnology. 4: 1-4.

437. Gobato R, Heidari A. 2020. Vortex Hits Southern Brazil in 2020. J Cur Tre Phy Res. 2: 109-112.

438. Heidari A. 2020. Synthesis of Fructose Biosensors and Progressing Their Efficiency Using Californium Colloidal Nanoparticles for Detecting Fructose and Triglycerides. Adv. Sci. Eng. Med. 12: 1002-1017.

439. Gobato R, Heidari A, Mitra A, et al. 2019. Cotes's Spiral Vortex in Extratropical Cyclone Bomb South Atlantic Oceans. Aswan University Journal of Environmental Studies (AUJES). 1: 147-156.

440. Heidari A. 2019. Young Researcher Forum for 2nd World Congress on Neurology. J Neurol Neurophysiol. 10: 4.

441. Heidari A. 2020. World Congress on Health and Medical Science”, Journal of Emerging Diseases and Preventive Medicine. 3: 1.

442. Heidari A. 2019. Scientific Challenges and Recent Advancements of Dermatology and Cosmetology”, J Clin Exp Pathol. 3: 9.

443. Gobato R, Heidari, Mitra A. 2021. Bioinorganic Membrane Using Kurumi, A New Liquid Crystal”, Sumerianz Journal of Biotechnology. 4: 4-7.

444. Heidari A. 2021. A Stimulated FT-IR Biospectroscopic Study of Lopinavir Protective and Therapeutic Effect as a Potent Drug on Coronavirus Disease-2019 (COVID-19) Infection. Parana Journal of Science and Education (PJSE)-v. 7: 1-33.

445. Heidari A. 2021. Simulation of the Variations of Surface Synchrotron Resonance Spectrum of Arranged Cadmium Oxide (CdO) Nanoparticles over Cancer Tissues Matrix with Size and Distance. Parana Journal of Science and Education (PJSE)-v. 7: 34-67.

446. Heidari A, Gobato R. 2020. Spherical Paramagnetic Contribution to Shielding Tensor Analysis of Nuclear Magnetic Resonance Signals in Gum Cancer Cells, Tissues and Tumors. Dent Oral Maxillofac Res. 6: 1-2.

447. Heidari A, Gobato R. 2020. Exact NMR Simulation of Anti-Cancer Nano Drug-DNA/RNA Complexes in Gum Cancer Cells Spin Systems Using Tensor Train Formalism. Dent Oral Maxillofac Res, Volume. 6: 1-2.

448. Heidari A, Gobato R. The Anti-Cancer Nano Drug Delivery 13C-Edited/13C-Filtered Transferred Dynamic 15N{1H} NOE Measurements for Studying DNA/RNA Interactions with Short Non-Linear Motifs: A Modern Tool for Studying DNA/RNA Dynamics in Gum Cancer Cells. Dent Oral Maxillofac Res. 6: 1-2.

449. Heidari A, Gobato R. 2020. DNA/RNA of Gum Cancer Cells-Anti-Cancer Nano Drugs Ligands Structure Determination with the Two-Dimensional NMR Molecular Line Shape Analysis of Single, Multiple, Zero and Double Quantum Correlation Experiments. Dent Oral Maxillofac Res. 6: 1-3.

450. Heidari A, Gobato R. 2020. Investigation of the Internal Structure and Dynamics of Gum Cancer Cells, Tissues and Tumors by 13C-NMR Spectra of DNA/RNA of Gum Cancer Cells as an Essential Structural Tool for Integrative Studies of Gum Cancer Cells Development. Dent Oral Maxillofac Res. 6: 1-3.

451. Heidari A, Gobato R. 2020. NMR and Molecular Dynamics Studies Combined to Anti-Cancer Nano Drugs and DNA/RNA Interactions in Gum Cancer Cells and Their Modulations with Resistance Mutations. SDent Oral Maxillofac Res. 6: 1-2.

452. Heidari A, Gobato R. 2020. Advanced Isotopic Labeling for the NMR Investigation of Challenging DNA/RNA of Gum Cancer Cells and Anti-Cancer Nano Drugs for Production of isotope-labeled DNA/RNA in Gum Cancer Cells for NMR Spectroscopy. Dent Oral Maxillofac Res. 6: 1-3.

453. Heidari A, Gobato R. 2020. Simultaneous Detection of Intra- and Inter-Molecular Paramagnetic Relaxation Enhancements in DNA/RNA of Gum Cancer Cells-Anti-Cancer Nano Drugs Complexes. Dent Oral Maxillofac Res. 6: 1-2.

454. Heidari A, Gobato R. 2020. Impact of DNA/RNA Self-Alignment in a Strong Magnetic Field on the Interpretation of Indirect Spin-Spin Interactions Using NMR Line Shape Analysis of a Multi-State DNA/RNA Ligand Binding Mechanism in Gum Cancer Cells. Dent Oral Maxillofac Res. 6: 1-2.

455. Heidari A, Gobato R. 2020. Application of Anti-Cancer Nano Drugs Particles (ACNDP) to NMR Characterization of Viral Gum Cancer Cell Membrane DNA/RNA Interactions for Extracting DNA/RNA Dynamics Information from Overlapped NMR Signals Using Relaxation Dispersion Difference NMR Spectroscopy. Dent Oral Maxillofac Res. 6: 1-2.

456. Heidari A, Gobato R. 2020. Diagnosis of Gum Cancer Cells from DNA/RNA Us ing Database Mining and Support Vector Regression through High Resolution 4D HPCH Experiment for Sequential Assignment of 13C-Labeled DNAs/RNAs in Gum Cancer Cells. Dent Oral Maxillofac Res. 6: 1-2.

457. Heidari A, Gobato R. 2020. New Opportunities for Tensor-Free Calculations of Residual Dipolar Couplings for the Study of Dynamic Nuclear Polarization of Nucleic Acids with Endogenously Bound Manganese in Gum Cancer Cells. Dent Oral Maxillofac Res. 6: 1-2.

458. Heidari A. 2021. Pros and Cons Controversy on Synchrotronic Biosensor Using Os-Pd/HfC Nanocomposite for Tracking, Monitoring, Imaging, Measuring, Diagnosing and Detecting Cancer Cells, Tissues and Tumors. Indones. J. Cancer Chemoprevent. 12: 1-10.

459. Gobato R, Heidari, Valverde LF. 2021. ACTG Based on Silicon Getting News Structures Asi, Csi, Tsi and Gsi. Arch Biomed Eng & Biotechnol. 5: 1-2.

460. Heidari A, Gobato R. 2021. A Biospectroscopic Assignment Technique for Gum Cancer Cell Membrane DNA/RNA Reconstituted in Magnetically Aligned Gum Cancer Cells for Solid-State NMR Analysis of Gum Cancer Cell Membrane DNA/RNA and Nucleic Acids Aggregates by Proton Detected Spectroscopy. Glob Imaging Insights. 6: 1-2.

461. Heidari A, Gobato R. 2021. Integrated Analysis of the Conformation of a DNA/RNA-Linked Spin Label by Combining NMR Ensembles and Molecular Dynamics Simulations Provides More Realistic Models of DNA/RNA Structures in Gum Cancer Cells Using Optimization of NMR Spectroscopy of Encapsulated DNA/RNA Dissolved in Gum Cancer Cells. Glob Imaging Insights. 6: 1-3.

462. Heidari A, Gobato R, Valverde LF. 2021. Modelling and Simulation of 13C, 15N, 17O NMR Chemical Shifts, 17O and 14N Electric Field Gradients and Measurement of 13C and 15N Chemical Shifts in DNA/RNA of Human Gum Cancer Cells, Tissues and Tumors Using NMR Biospectroscopic Profiling for Novel Systems Diagnostics. SGlob Imaging Insights. 6: 1-2.

463. Heidari A, Gobato R, Valverde LF. 2021. Theoretical 13C Chemical Shift, 14N, and 2H Quadrupole Coupling -Constant Studies of Hydrogen Bonding for Measurement and Calculation of 13C and 15N NMR Chemical-Shift Tensors in DNA/RNA of Gum Cancer Cells Identification: A Powerful Alternative. Glob Imaging Insights. 6: 1-2.

464. Heidari A, Gobato R, Valverde LF. 2021. Conformational Study of a Strained DNA/RNA by Dynamic 1H NMR Biospectroscopy and Computational Methods for Molecular Modelling, Simulation and Biopectroscopic Studies of DNA/RNA of Gum Cancer Cells. Dent Oral Maxillofac Res. 7: 1-2.

465. Heidari A, Gobato R, Valverde LF. 2020. Current Advances in the Application of Dynamic NMR Studies of DNA/RNA Intra-and Inter Molecular Effect on Ring Inversion Rate Constants for Molecular Diagnosis of Gum Cancer. Dent Oral Maxillofac Res. 7: 1-2.

466. Heidari A, Gobato R, Valverd LF. 2021. NMR-Based Metabolomics Approach to Target Biomarkers Such as DNA/RNA for New Frontiers of Diagnostic Strategies for Prevention, Prognosis, Diagnosis and Treatment of Gum Caner Tumor Metabolism. Dent Oral Maxillofac Res. 7: 1-2.

467. Heidari A, Gobato R, Valverde LF. 2021. Spherical Tensor Analysis of Nuclear Magnetic Resonance Signals for Understanding Chemical Shielding Tensors of DNA/RNA in Gum Cancer Cells Using Group Theory, MO Analysis, and Modern Density-Functional Theory. Dent Oral Maxillofac Res. 7: 1-2.

468. Heidari A, Hotz M, MacDonald N. 2021. Introducing Cadmium Oxide (CdO) Smart Nanoparticles as Detector for Diagnosis of Signals from Cancer Cells, Tissues and Tumors under Synchrotron and Synchrocyclotron Radiations. International Journal of Advanced Engineering and Science. 10: 20-64.

469. Heidari A, Hotz M, MacDonald N. 2021. Iridium (IV) Oxide (IrO2) Nanoparticles Shut Down Cancer Growth Using Iridium (IV) Oxide (IrO2) Nanoparticles to Deliver a Nucleic Acid (DNA/RNA) into Tumor Cells under Synchrotron and Synchrocyclotron Radiations. Parana Journal of Science and Education (PJSE). 7: 200-235.

470. Heidari A, Hotz M, MacDonald N. 2021. Emerging Use of Osmium Dioxide (OsO2) and Osmium Tetroxide (OsO4) Nanoparticles in Prevention, Prognosis, Diagnosis, Imaging, Screening, Treatment and Management of Cancer under Synchrotron and Synchrocyclotron Radiations. Parana Journal of Science and Education (PJSE). 7: 163-199.

471. [Heidari A, Hotz M, MacDonald N. 2021. “Biopolymer Rhenium (IV) Oxide (ReO2), Rhenium Trioxide (ReO3) and Rhenium (VII) Oxide (Re2O7) Nanoparticles for Targeted Cancer Prevention, Prognosis, Diagnosis, Imaging, Screening, Treatment and Management under Synchrotron and Synchrocyclotron Radiations. Parana Journal of Science and Education (PJSE). 7: 126-162.

472. Heidari A, Hotz M, MacDonald N. 2021. Biocompatible Core–Shell Advanced Magnetic Rhodium (III) Oxide or Rhodium Sesquioxide (Rh2O3) and Rhodium (IV) Oxide (RhO2) Nanoparticles for Cancer Prevention, Prognosis, Diagnosis, Imaging, Screening, Treatment and Management under Synchrotron and Synchrocyclotron Radiations. Parana Journal of Science and Education (PJSE). 7: 89-125.

473. Heidari A, Hotz M, MacDonald N. 2021. Targeted Biopolymeric Ruthenium (IV) Oxide (RuO?) and Ruthenium (VIII) Oxide (RuO4) Nanoparticles Loaded with Cetuximab and Decorated with Somatostatin Analogue to Colon Cancer under Synchrotron and Synchrocyclotron Radiations. Parana Journal of Science and Education (PJSE). 7: 52-88.

474. Heidari A, Hotz M, MacDonald N. 2021. Future Studies of Cancer Immunotherapy Using Cadmium Oxide (CdO) Nanoparticles as Anti–Cancer Nano Drug Delivery Could Be the Future of Targeted Cancer Therapies under Synchrotron and Synchrocyclotron Radiations. Parana Journal of Science and Education (PJSE). 7: 15-51.

475. Heidari A. 2021. Removal of Cancer Cells Using Thin Layers of Cadmium Oxide (CdO)–DNA/RNA Sandwiched Complex Composite Plasmonic Nanostructure under Synchrotron Radiation. Organic Polymer Material Research. 3: 1-15.

476. Gobato R, Heidari A, Valverde LF. Infrared Spectrum for the New Exobiological Nanomolecules Asi, Csi, Tsi and Gsi. Sumerianz Journal of Scientific Research. 4: 25-31.

477. Heidari A. 2020. Study of Physical Properties of Cadmium Oxide (CdO) and CdO/DNA/RNA Nanostructures Thin Layers Produced by Spray Pyrolysis Technique for Manufacturing Cadmium Oxide (CdO) Nanoparticles and Evaluation of the Effect of DNA/RNA Doping on Their Optical Characteristics. Adv Sci Eng Med. 12: 1224-1230.

478. Heidari A. 2020. Vibrational Biospectroscopic Study on Biomedical and Clinical Engineering of Cancer Cells Fingerprints. Adv Sci Eng Med. 12: 1272-1284.

479. Heidari A. 2020. Effect of Temperature on DNA/RNA–Cadmium Oxide (CdO) Complex Nanoparticles Produced by Synchrotronic Laser Ablation Method in the Cancer Cells. Adv Sci Eng Med. 12: 1315-1322.

480. Heidari A. 2021. Cadmium Oxide (CdO)–DNA/RNA Sandwiched Complex Composite Plasmonic Nanostructure in Cancer Cells under Synchrotron Radiation. Nano Prog. 3: 35-47.

481. Heidari A, Hotz M, MacDonald N. 2021. The Effect of Solution Molarity on the Structural, Morphological, Optical and Electrical Properties of Nanostructured Cadmium Oxide (CdO) Nano Thin Films as Anti–Cancer Nano Drug in Cancer Cells, Tissues and Tumors under Synchrotron and Synchrocyclotron Radiations. Int J Hematol Oncol. 4: 16-60.

482. Heidari A, Hotz M, MacDonald N. 2021. Annealing Effects on the Interband Transition and Optical Constants of Ruthenium (IV) Oxide (RuO?) and Ruthenium (VIII) Oxide (RuO4) Nano Thin Films in Cancer Cells, Tissues and Tumors under Synchrotron and Synchrocyclotron Radiations. Int J Hematol Oncol. 4: 61-105.

483. Heidari A, Hotz M, MacDonald N. 2021. Rhodium (III) Oxide or Rhodium Sesquioxide (Rh2O3) and Rhodium (IV) Oxide (RhO2) Effect on the Stop Growth of Cancer Cells, Tissues and Tumors under Synchrotron and Synchrocyclotron Radiations. Int J Hematol Oncol. 4: 106-149.

484. Heidari A, Hotz M, MacDonald N. 2021. Removal Role, Application and Effect of Nanocluster Rhenium (IV) Oxide (ReO2), Rhenium Trioxide (ReO3) and Rhenium (VII) Oxide (Re2O7) Thin Films Delivery in DNA/RNA of Cancer Cells under Synchrotron and Synchrocyclotron Radiations. Int J Hematol Oncol. 4: 150-194.

485. Heidari A, Hotz M, MacDonald N. 2021. Catalytic Effectiveness of Synchrotron and Synchrocyclotron Radiations on Osmium Dioxide (OsO2) and Osmium Tetroxide (OsO4) Nano Capsules Delivery in DNA/RNA of Cancer Cells. Int J Hematol Oncol. 4: 195-238.

486. Heidari A, Hotz M, MacDonald N. 2021. Advanced Studies on the Effect of Transition Metal Doped Iridium (IV) Oxide (IrO2) Nano Thin Films in Cancer Cells, Tissues and Tumors under Synchrotron and Synchrocyclotron Radiations. Int J Hematol Oncol. 4: 239-282.

487. Heidari A, Hotz M, MacDonald N. 2021. Cadmium Oxide (CdO) Nanoparticles–Based Drug Delivery in Cancer Prevention, Prognosis, Diagnosis, Imaging, Screening, Treatment and Management and its Role and Application in Overcoming Drug Resistance under Synchrotron and Synchrocyclotron Radiations. International Journal of Advanced Chemistry. 9: 80-98.

488. Heidari A, Hotz M, MacDonald N. 2021. Active Targeting of Rhenium (IV) Oxide (ReO2), Rhenium Trioxide (ReO3) and Rhenium (VII) Oxide (Re2O7) Nanoparticles as Cancer Therapeutics Swell–up to Kill Cancer Cells under Synchrotron and Synchrocyclotron Radiations. International Journal of Advanced Chemistry. 9: 103-121.

489. Heidari A, Hotz M, MacDonald N. 2021. Ruthenium (IV) Oxide (RuO?) and Ruthenium (VIII) Oxide (RuO4) Smart Nano Particles, Nano Capsules and Nanoclusters Influence, Impression and Efficacy in Cancer Prevention, Prognosis, Diagnosis, Imaging, Screening, Treatment and Management under Synchrotron and Synchrocyclotron Radiations. American Journal of Materials Engineering and Technology. 9: 1-20.

490. Heidari A, Hotz M, MacDonald N. 2021. Cadmium Oxide (CdO) Smart Nano Particles, Nano Capsules and Nanoclusters Influence, Impression and Efficacy in Cancer Prevention, Prognosis, Diagnosis, Imaging, Screening, Treatment and Management under Synchrotron and Synchrocyclotron Radiations. Journal of Materials Physics and Chemistry. 9: 26-46.

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