XRD and spectral dataset of the UV-A stable nanotubes of 3,5-bis(trifluoromethyl)benzylamine derivative of tyrosine

The data presented in this article are related to the research entitled of UV-A stable nanotubes. The nanotubes have been prepared from 3,5-bis(trifluoromethyl)benzylamine derivative of tyrosine (BTTP). XRD data reveals the size of the nanotubes. As-synthesized nanotubes (BTTPNTs) are characterized by UV–vis optical absorption studies [1] and photo physical degradation kinetics. The resulted dataset is made available to enable critical or extended analyzes of the BTTPNTs as an excellent light resistive materials.


a b s t r a c t
The data presented in this article are related to the research entitled of UV-A stable nanotubes. The nanotubes have been prepared from 3,5-bis(trifluoromethyl)benzylamine derivative of tyrosine (BTTP). XRD data reveals the size of the nanotubes. As-synthesized nanotubes (BTTPNTs) are characterized by UV-vis optical absorption studies [1] and photo physical degradation kinetics. The resulted dataset is made available to enable critical or extended analyzes of the BTTPNTs as an excellent light resistive materials. &

Experimental factors
UV-visible (UV-vis) spectroscopy measurements of coated quartz glass slides and XRD.

Experimental features
The UV spectral data and photo degradation results are related with UVstability.

Data source location
XRD,UV -Vis absorbance and Photo reactors of Department of Chemistry, Annamalai University, India. Data accessibility Data included in this article. and accessible

Value of the data
Data of this article is a collection of all XRD, UV-vis spectroscopic analysis and photo degradation of the synthesized nanotubes.
The empirical graphs and plots provide a novel way to look at the application of the transmittance and absorption frequencies Light resistive property of the nanotubes is presumed from the data Raw Data tabulated will give an idea for the researchers to develop certain UV stable nanomaterials.

Data
The dataset of this article provides information on the UV stable BTTPNTs. Schemes 1 and 2 show the synthesis scheme and Figs. 1 and 2 shows XRD and spectra. Kinetic graphs. Resulted data are provided in Supplementary Tables 1, 2 and 3.

Synthesis of self-assembled nanotubes
The procedure was adopted from a reported method [2] as follows (Scheme 2). About 10 mg of aqueous solution (in nanopure water) of single amino acid derivatives was prepared in a closed Erlenmeyer flask with appropriate concentration. The flask containing desired solution and a Scheme 2. Synthesis of BTTPNTs and nanovesicles. magnetic stir bar was placed in pre warmed silicon oil bath (65°C) and moderate stirring was continued for 30 min at that temperature. Heating was then stopped and the solution was brought to room temperature with gentle stirring for over a period of 3 h.

Characterization techniques
UV-vis (ultraviolet and visible light) absorbance spectra were recorded over a range of 800-200 nm with a Shimadzu UV-1650 PC spectrophotometer, operated at a resolution of 0.5 nm. The samples were filled in a quartz cuvette of 1 cm light-path length, and the absorption spectra were recorded with reference to deionized water and distilled ethanol.
Artificial UV-A environmental situation is created by photo reactor. UV-A absorption wavelength range was fixed at 365 nm. The concentration of 2×10 -4 M FPNTs solution was used for the study. UVvis (ultraviolet and visible light) absorbance spectra were recorded over a range of 800-200 nm with a Shimadzu UV-1650 PC spectrophotometer, operated at a resolution of 0.5 nm (see supporting information Tables 1-3).