17608-41-2Relevant articles and documents
Method for synthesizing cholesterol by taking BA as raw material
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, (2021/08/14)
The invention discloses a method for synthesizing cholesterol by taking BA as a raw material. A plant source raw material 21-hydroxy-20-methylpregna-4-en-3-one, also known as Shuangjiangchun or BA is taken as a raw material, and the cholesterol is synthesized by the steps of oxidation, Wittig reaction, acetylation, reduction, selective hydrogenation reduction and the like. The raw materials for synthesizing cholesterol are plant sources, the price is low, the safety is high, the risk of pathogenic bacteria and virus infection is avoided, and the synthesis method is easy to operate, high in yield, few in side reaction, environmentally friendly, good in economical efficiency and convenient for industrial production; and the invention solves the safety problem of the existing cholesterol product and the problems of high cost, environmental unfriendliness and unsuitability for large-scale industrial production in the synthesis technology.
Powerful Continuous-Flow Hydrogenation by using Poly(dimethyl)silane-Supported Palladium Catalysts
Kobayashi, Shu,Okumura, Mikiko,Akatsuka, Yuichi,Miyamura, Hiroyuki,Ueno, Masaharu,Oyamada, Hidekazu
, p. 4025 - 4029 (2015/12/26)
We developed poly(dimethyl)silane-supported Pd catalysts that are readily prepared from Pd(OAc)2, poly(dimethyl)silane, and Al2O3. The immobilization was achieved for the first time with a support that does not contain benzene rings. The Pd catalyst thus prepared was found to have higher hydrogenation activity than Pd/C. Furthermore, the catalyst was used in continuous-flow hydrogenation with various substrates, including simple liquid substrates (neat) and dissolved solid substrates. Vegetable oils, squalenes, and phosphatidylcholine were successfully hydrogenated on gram to kilogram scales.
Action of lithium ethylenediamine on 1,4-diketone
Ghosh, Pranab,Chakraborty, Prasanta
experimental part, p. 1125 - 1128 (2011/06/19)
Reactions of lithium ethylenediamine (Li/EDA) have been carried out on 1,4-diketones such as cholest-4(5)-en-3,6-dione (1) and hexane-2,5-dione (7). The resulting compounds have been characterized by optical rotation, IR, mass spectra and by comparison with authentic samples.