4132-28-9Relevant articles and documents
Electrochemical Synthesis of Glycosyl Fluorides Using Sulfur(VI) Hexafluoride as the Fluorinating Agent
Kim, Sungjin,Nagorny, Pavel
, p. 2294 - 2298 (2022/04/07)
This manuscript describes the electrochemical synthesis of 17 different glycosyl fluorides in 73-98% yields on up to a 5 g scale that relies on the use of SF6 as an inexpensive and safe fluorinating agent. Cyclic voltammetry and related mechanistic studies carried out subsequently suggest that the active fluorinating species generated through the cathodic reduction of SF6 are transient under these reductive conditions and that the sulfur and fluoride byproducts are effectively scavenged by Zn(II) to generate benign salts.
Method for continuously synthesizing benzyl-substituted glucolactone by adopting microchannel reaction device
-
Paragraph 0012; 0043; 0045; 0047; 0050; 0052-0053; 0055, (2021/06/21)
The invention discloses a method for continuously synthesizing benzyl-substituted glucolactone by adopting a microchannel reaction device. The method comprises the following steps: taking methyl-alpha-D-mannopyranoside as an initial raw material, preparing the methyl-alpha-D-mannopyranoside into an old organic solvent solution, and reacting the old organic solvent solution with an organic solvent solution of benzyl chloride in a first microreactor to generate methyl glucose with hydroxyl protected by benzyl; reacting a homogeneous solution formed by mixing a reaction solution of benzyl-substituted gluconic acid and a small amount of hydrochloric acid solution in a second microreactor for demethylation to generate hydroxyl benzyl-substituted glucose; and finally, reacting the reaction solution with an aqueous solution of hydrogen peroxide and sodium hydroxide and an organic solvent solution of tetramethylpiperidine nitrogen oxide in a third microreactor to generate the high-purity hypoglycemic drug Dapagliflozin intermediate benzyl substituted glucolactone. The method disclosed by the invention is higher in heat and mass transfer efficiency and easier to industrially amplify, the initial materials are simple, cheap and easily available, the process is simple, the obtained intermediate is high in purity and high in yield, the production cost can be effectively reduced, and the method is suitable for industrial production.
Regioselective Anomeric O-Benzyl Deprotection in Carbohydrates
Anjaneyulu, Bandi,Rao, Boddu Umamaheswara,Sridhar, Perali Ramu
supporting information, p. 5665 - 5668 (2021/11/11)
A highly regioselective hydrogenolysis of the anomeric benzyl group is reported. The reaction involves selective acetolysis of benzyl acetals of various mono- and di-saccharides using 10 % Pd/C under hydrogen atmosphere in the presence of Na2CO