Application of sugar-containing biomass: one-step synthesis of 2-furylglyoxylic acid and its derivatives from a vitamin C precursor

Jiao Chen; Zhenhua Zhu; Jiali Cai; Mengru Cao; Feng Sha; Sha Tao; Hao Yang; Haifeng Gan; Hongli Wu; Fei Cao; Lili Zhao; Pingkai Ouyang

doi:10.1039/d2gc00186a

Application of sugar-containing biomass: one-step synthesis of 2-furylglyoxylic acid and its derivatives from a vitamin C precursor

Jiao Chen, Zhenhua Zhu, Jiali Cai, Mengru Cao, Feng Sha, Sha Tao, Hao Yang, Haifeng Gan, Hongli Wu, Fei Cao, Lili Zhao, Pingkai Ouyang

School of Chemistry and Moleculai Engineering

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

We developed a novel pathway for preparing the high-value pharmaceutical intermediate 2-furylglyoxylic acid (2FGA) from 2-keto-l-gulonic acid (2KGA), a bio-based sugar-acid monomer and precursor of vitamin C, via dehydration. 100 g L⁻¹ methyl 2-keto-l-gulonicate (Me-2KGA) was transformed into methyl 2-furylglyoxylicate (Me-2FGA) with a maximum yield of 79.4%, competing with the yields obtained via traditional commercial synthesis methods. Subsequently, characterisation methods and theoretical calculations were employed; it was confirmed that natural 2KGA, with a 2,5-cyclic configuration, was esterified initially, it then underwent a transformation to an opened intermediate which further recyclized in a 3,6-cyclic configuration via removing one molecule of water, and this was finally dehydrated to Me-2FGA. This study offers novel insight into the flexibility and versatility of furan-based compounds.

Original language	English
Pages (from-to)	2000-2009
Number of pages	10
Journal	Green Chemistry
Volume	24
Issue number	5
DOIs	https://doi.org/10.1039/d2gc00186a
State	Published - 16 Feb 2022

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title = "Application of sugar-containing biomass: one-step synthesis of 2-furylglyoxylic acid and its derivatives from a vitamin C precursor",

abstract = "We developed a novel pathway for preparing the high-value pharmaceutical intermediate 2-furylglyoxylic acid (2FGA) from 2-keto-l-gulonic acid (2KGA), a bio-based sugar-acid monomer and precursor of vitamin C, via dehydration. 100 g L−1 methyl 2-keto-l-gulonicate (Me-2KGA) was transformed into methyl 2-furylglyoxylicate (Me-2FGA) with a maximum yield of 79.4%, competing with the yields obtained via traditional commercial synthesis methods. Subsequently, characterisation methods and theoretical calculations were employed; it was confirmed that natural 2KGA, with a 2,5-cyclic configuration, was esterified initially, it then underwent a transformation to an opened intermediate which further recyclized in a 3,6-cyclic configuration via removing one molecule of water, and this was finally dehydrated to Me-2FGA. This study offers novel insight into the flexibility and versatility of furan-based compounds.",

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T2 - one-step synthesis of 2-furylglyoxylic acid and its derivatives from a vitamin C precursor

AU - Chen, Jiao

AU - Zhu, Zhenhua

AU - Cai, Jiali

AU - Cao, Mengru

AU - Sha, Feng

AU - Tao, Sha

AU - Yang, Hao

AU - Gan, Haifeng

AU - Wu, Hongli

AU - Cao, Fei

AU - Zhao, Lili

AU - Ouyang, Pingkai

PY - 2022/2/16

Y1 - 2022/2/16

N2 - We developed a novel pathway for preparing the high-value pharmaceutical intermediate 2-furylglyoxylic acid (2FGA) from 2-keto-l-gulonic acid (2KGA), a bio-based sugar-acid monomer and precursor of vitamin C, via dehydration. 100 g L−1 methyl 2-keto-l-gulonicate (Me-2KGA) was transformed into methyl 2-furylglyoxylicate (Me-2FGA) with a maximum yield of 79.4%, competing with the yields obtained via traditional commercial synthesis methods. Subsequently, characterisation methods and theoretical calculations were employed; it was confirmed that natural 2KGA, with a 2,5-cyclic configuration, was esterified initially, it then underwent a transformation to an opened intermediate which further recyclized in a 3,6-cyclic configuration via removing one molecule of water, and this was finally dehydrated to Me-2FGA. This study offers novel insight into the flexibility and versatility of furan-based compounds.

AB - We developed a novel pathway for preparing the high-value pharmaceutical intermediate 2-furylglyoxylic acid (2FGA) from 2-keto-l-gulonic acid (2KGA), a bio-based sugar-acid monomer and precursor of vitamin C, via dehydration. 100 g L−1 methyl 2-keto-l-gulonicate (Me-2KGA) was transformed into methyl 2-furylglyoxylicate (Me-2FGA) with a maximum yield of 79.4%, competing with the yields obtained via traditional commercial synthesis methods. Subsequently, characterisation methods and theoretical calculations were employed; it was confirmed that natural 2KGA, with a 2,5-cyclic configuration, was esterified initially, it then underwent a transformation to an opened intermediate which further recyclized in a 3,6-cyclic configuration via removing one molecule of water, and this was finally dehydrated to Me-2FGA. This study offers novel insight into the flexibility and versatility of furan-based compounds.

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M3 - 文章

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SN - 1463-9262

VL - 24

SP - 2000

EP - 2009

JO - Green Chemistry

JF - Green Chemistry

IS - 5

ER -

Application of sugar-containing biomass: one-step synthesis of 2-furylglyoxylic acid and its derivatives from a vitamin C precursor

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