Fe(NO)₃·9H₂O/NaI/二甲基亚砜催化木质素模型化合物中C(OH)-C键氧化裂解生成羧酸

Catalytic Oxidative Cleavage of C(OH)-C Bonds in Lignin Model Compounds to Carboxylic Acids by Fe(NO).9HO/NaI/DMSO.

作者信息

Wang Xuerong, Sun Huilin, Li Caicui, Niu Shuijiao, Gao Yu, Chen Ying, Xu Tianwei, Wang Jinhui, Xu Huanjun

机构信息

Key Laboratory of Child Cognition & Behavior Development of Hainan Province, Qiongtai Normal University, Haikou, China.

School of Science, Qiongtai Normal University, Haikou, China.

出版信息

Front Chem. 2022 Jul 1;10:933763. doi: 10.3389/fchem.2022.933763. eCollection 2022.

DOI:10.3389/fchem.2022.933763

PMID:35844649

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9283955/

Abstract

The secondary C(OH)-C bonds are abundant in biomass such as lignin and cellulose. Thus, selective cleavage of the C(OH)-C bonds into value chemicals attracted much attention. Molecular iodine has received considerable attention as an inexpensive and readily available catalyst to yield the corresponding products in excellent yields with high selectivity, but it is highly corrosive and toxic, making its use somewhat unattractive. In this study, I was generated from Fe(NO).9HO/NaI, which was further combined with Fe(NO).9HO to catalyze the oxidation process. In the reaction, the HO molecule from the reaction and Fe(NO).9HO attacked the phenylglyoxal to form benzaldehyde, which was further oxidized to benzoic acid. Aryl primary and secondary benzylic alcohols from lignin were successfully transformed into aryl carboxylic acids by Fe(NO).9HO/NaI/DMSO. The catalytic system was green and efficient, avoiding the usage of toxic and corrosive molecular I. From the experiments, it was clear that the yield of the product from the substrates with an electron-donating group was higher than that of electron-withdrawing substituted substrates, which was similar to the aryl secondary alcohols. Aryl alkyl ketones were also successfully conducted by the Fe(NO).9HO/NaI/DMSO catalytic system.

摘要

在木质素和纤维素等生物质中，仲C(OH)-C键大量存在。因此，将C(OH)-C键选择性裂解为有价值的化学品备受关注。分子碘作为一种廉价且易于获得的催化剂，能以优异的产率和高选择性生成相应产物，受到了广泛关注，但它具有高腐蚀性和毒性，这使得其应用缺乏吸引力。在本研究中，碘由Fe(NO₃)₃·9H₂O/NaI生成，并进一步与Fe(NO₃)₃·9H₂O结合以催化氧化过程。在反应中，反应产生的H₂O分子和Fe(NO₃)₃·9H₂O攻击苯乙二醛形成苯甲醛，苯甲醛进一步氧化为苯甲酸。通过Fe(NO₃)₃·9H₂O/NaI/DMSO，木质素中的芳基伯醇和仲醇成功转化为芳基羧酸。该催化体系绿色高效，避免了使用有毒且具腐蚀性的分子碘。从实验中可以清楚地看出，具有供电子基团的底物生成产物的产率高于吸电子取代底物，这与芳基仲醇的情况类似。芳基烷基酮也通过Fe(NO₃)₃·9H₂O/NaI/DMSO催化体系成功合成。

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