通过费歇尔糖基化反应制备甲基糖苷：从间歇式微波反应到连续流工艺的转变

Methyl glycosides via Fischer glycosylation: translation from batch microwave to continuous flow processing.

作者信息

Aronow Jonas, Stanetty Christian, Baxendale Ian R, Mihovilovic Marko D

机构信息

Institute of Applied Synthetic Chemistry, TU Wien, Getreidemarkt 9, 1060 Vienna, Austria.

2Department of Chemistry, Durham University, South Road, Durham, DH1 3LE UK.

出版信息

Monatsh Chem. 2019;150(1):11-19. doi: 10.1007/s00706-018-2306-8. Epub 2018 Nov 17.

DOI:10.1007/s00706-018-2306-8

PMID:30662091

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6320746/

Abstract

ABSTRACT

A continuous flow procedure for the synthesis of methyl glycosides (Fischer glycosylation) of various monosaccharides using a heterogenous catalyst has been developed. In-depth analysis of the isomeric composition was undertaken and high consistency with corresponding results observed under microwave heating was obtained. Even in cases where addition of water was needed to achieve homogeneity-a prerequisite for the flow experiments-no detrimental effect on the conversion was found. The scalability was demonstrated on a model case (mannose) and as part of the target-oriented synthesis of d--d- heptose, both performed on multigram scale.

摘要

已开发出一种使用非均相催化剂连续流动合成各种单糖甲基糖苷（费歇尔糖基化反应）的方法。对异构体组成进行了深入分析，并与微波加热下观察到的相应结果高度一致。即使在需要加水以实现均相性（流动实验的一个先决条件）的情况下，也未发现对转化率有不利影响。在模型案例（甘露糖）以及作为目标导向合成 d--d-庚糖的一部分中，均在多克规模上证明了该方法的可扩展性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8a91/6320746/03e2d9533dfe/706_2018_2306_Sch1_HTML.jpg

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Methyl glycosides via Fischer glycosylation: translation from batch microwave to continuous flow processing.通过费歇尔糖基化反应制备甲基糖苷：从间歇式微波反应到连续流工艺的转变

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通过费歇尔糖基化反应制备甲基糖苷：从间歇式微波反应到连续流工艺的转变

Methyl glycosides via Fischer glycosylation: translation from batch microwave to continuous flow processing.

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ABSTRACT

摘要

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