On the mechanism and synthetic applications of the thermal and alkaline degradation of c-18 castor oil
References (21)
- et al.
Compt. rend.
(1827)Compt. rend.
(1851)Ber.
(1877)Ber.
(1874)Ber.
(1874) - et al.
J. Chem. Soc.
(1952) - et al.
Tetrahedron
(1980)et al.Tetrahedron Lett.
(1978)et al.Synthesis
(1977)et al.Syn. Comm.
(1982)et al.Syn. Comm.
(1982) Angew. Int.
(1969)et al.Angew. Int.
(1978)Ph.D. Thesis
(1981)Ph.D. Thesis
(1982)Berichte von Schimmel and Co
(1913)
There are more references available in the full text version of this article.
Cited by (9)
Novel photocrosslinkable and biodegradable polyester from bio-renewable resource
2012, Polymer Degradation and StabilityCitation Excerpt :It is necessary to fabricate the ductile polyesters form DHCA and second monomers. 10-hydroxycapric acid (HDA) is a kind of bio-monomer from castor oil with flexible long linear chain [20]. To the best of our knowledge, the ductility of bio-based polyester would be increased by the introducing flexible monomer, HDA.
Design and Synthesis of Sebacic Acid from Castor Oil by New Alternate Route
2022, European Journal of Lipid Science and TechnologyBio-polyamides based on renewable raw materials: Glass transition and crystallinity studies
2016, Journal of Thermal Analysis and CalorimetrySynthesis of Modified Polycaprolactams Obtained from Renewable Resources
2015, Macromolecular Chemistry and PhysicsTransformation of homoallylic alcohol oxides into 3-hydroxytetrahydrofurans in aqueous HClO<inf>4</inf>
2006, Russian Chemical Bulletin
Copyright © 1984 Published by Elsevier Ltd.