通过锰掺杂的羟基氧化钴催化剂进行电化学氧化C(OH)-C键裂解将木质素衍生物选择性升级为羧酸盐

Selectively Upgrading Lignin Derivatives to Carboxylates through Electrochemical Oxidative C(OH)-C Bond Cleavage by a Mn-Doped Cobalt Oxyhydroxide Catalyst.

作者信息

Zhou Hua, Li Zhenhua, Xu Si-Min, Lu Lilin, Xu Ming, Ji Kaiyue, Ge Ruixiang, Yan Yifan, Ma Lina, Kong Xianggui, Zheng Lirong, Duan Haohong

机构信息

Department of Chemistry, Tsinghua University, Beijing, 100084, China.

State Key Laboratory of Chemical Resource Engineering, College of Chemistry, Beijing University of Chemical Technology, Beijing, 100029, China.

出版信息

Angew Chem Int Ed Engl. 2021 Apr 12;60(16):8976-8982. doi: 10.1002/anie.202015431. Epub 2021 Mar 10.

DOI:10.1002/anie.202015431

PMID:33555646

Abstract

Oxidative cleavage of C(OH)-C bonds to afford carboxylates is of significant importance for the petrochemical industry and biomass valorization. Here we report an efficient electrochemical strategy for the selective upgrading of lignin derivatives to carboxylates by a manganese-doped cobalt oxyhydroxide (MnCoOOH) catalyst. A wide range of lignin-derived substrates with C(OH)-C or C(O)-C units undergo efficient cleavage to corresponding carboxylates in excellent yields (80-99 %) and operational stability (200 h). Detailed investigations reveal a tandem oxidation mechanism that base from the electrolyte converts secondary alcohols and their derived ketones to reactive nucleophiles, which are oxidized by electrophilic oxygen species on MnCoOOH from water. As proof of concept, this approach was applied to upgrade lignin derivatives with C(OH)-C or C(O)-C motifs, achieving convergent transformation of lignin-derived mixtures to benzoate and KA oil to adipate with 91.5 % and 64.2 % yields, respectively.

摘要

将C(OH)-C键氧化裂解生成羧酸盐对石化工业和生物质增值具有重要意义。在此，我们报道了一种通过锰掺杂的羟基氧化钴（MnCoOOH）催化剂将木质素衍生物选择性升级为羧酸盐的高效电化学策略。一系列具有C(OH)-C或C(O)-C单元的木质素衍生底物能高效裂解为相应的羧酸盐，产率优异（80-99%）且操作稳定性良好（200小时）。详细研究揭示了一种串联氧化机制，即来自电解质的碱将仲醇及其衍生的酮转化为活性亲核试剂，这些亲核试剂被来自水的MnCoOOH上的亲电氧物种氧化。作为概念验证，该方法被应用于升级具有C(OH)-C或C(O)-C基序的木质素衍生物，分别以91.5%和64.2%的产率实现了木质素衍生混合物向苯甲酸盐以及环己酮肟向己二酸的收敛转化。

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通过锰掺杂的羟基氧化钴催化剂进行电化学氧化C(OH)-C键裂解将木质素衍生物选择性升级为羧酸盐

Selectively Upgrading Lignin Derivatives to Carboxylates through Electrochemical Oxidative C(OH)-C Bond Cleavage by a Mn-Doped Cobalt Oxyhydroxide Catalyst.

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