108535-19-9Relevant articles and documents
Tailoring chemoenzymatic oxidation: Via in situ peracids
Re, Rebecca N.,Proessdorf, Johanna C.,La Clair, James J.,Subileau, Maeva,Burkart, Michael D.
, p. 9418 - 9424 (2019)
Epoxidation chemistry often suffers from the challenging handling of peracids and thus requires in situ preparation. Here, we describe a two-phase enzymatic system that allows the effective generation of peracids and directly translate their activity to the epoxidation of olefins. We demonstrate the approach by application to lipid and olefin epoxidation as well as sulfide oxidation. These methods offer useful applications to synthetic modifications and scalable green processes.
Critical Influence of 5-Hydroxymethylfurfural Aging and Decomposition on the Utility of Biomass Conversion in Organic Synthesis
Galkin, Konstantin I.,Krivodaeva, Elena A.,Romashov, Leonid V.,Zalesskiy, Sergey S.,Kachala, Vadim V.,Burykina, Julia V.,Ananikov, Valentine P.
, p. 8338 - 8342 (2016/07/19)
Spectral studies revealed the presence of a specific arrangement of 5-hydroxymethylfurfural (5-HMF) molecules in solution as a result of a hydrogen–bonding network, and this arrangement readily facilitates the aging of 5-HMF. Deterioration of the quality of this platform chemical limits its practical applications, especially in synthesis/pharma areas. The model drug Ranitidine (Zantac) was synthesized with only 15 % yield starting from 5-HMF which was isolated and stored as an oil after a biomass conversion process. In contrast, a much higher yield of 65 % was obtained by using 5-HMF isolated in crystalline state from an optimized biomass conversion process. The molecular mechanisms responsible for 5-HMF decomposition in solution were established by NMR and ESI-MS studies. A highly selective synthesis of a 5-HMF derivative from glucose was achieved using a protecting group at O(6) position.
A new method for selective deprotection of anomeric N,O -dimethylhydroxylamine promoted by TMSCl
Huang, Shengjun,Liao, Jun,Zhao, Qingjie,Chai, Xiaoyun,Wang, Baogang,Yu, Shichong,Wu, Qiuye
, p. 158 - 168 (2013/03/29)
TMSCl was shown to be an efficient reagent for selective deprotection of the anomeric position protected as N,O-dimethylhydroxylamine glycoside. This deprotection condition was proved to be compatible with a number of protecting groups, such as the TBDPS, acetyl, benzyl, benzylidene, and benzoyl groups.Copyright Taylor and Francis Group, LLC.
