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靶向有价值的化工产品:生物基糠醛的肼介导的 Diels-Alder 芳构化反应。

Targeting Valuable Chemical Commodities: Hydrazine-mediated Diels-Alder Aromatization of Biobased Furfurals.

机构信息

Organic Chemistry and Catalysis, Debye Institute for Nanomaterials Science, Utrecht University, Universiteitsweg 99, 3584 CG, Utrecht (The, Netherlands.

Department of Sustainable Process and Energy Systems, TNO, Leeghwaterstraat 44, 2628 CA, Delft (The, Netherlands.

出版信息

ChemSusChem. 2022 Sep 20;15(18):e202201139. doi: 10.1002/cssc.202201139. Epub 2022 Aug 4.

DOI:10.1002/cssc.202201139
PMID:35833422
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9804822/
Abstract

A hydrazine-mediated approach towards renewable aromatics production via Diels-Alder aromatization of readily available, biobased furfurals was explored as alterative to the more classical approaches that rely on reactive but uneconomical reduced dienes (e. g., 2,5-dimethylfuran). To enable cycloaddition chemistry with these otherwise unreactive formyl furans, substrate activation by N,N-dimethyl hydrazone formation was investigated. The choice of the reaction partner was key to the success of the transformation, and in this respect acrylic acid showed the most promising results in the synthesis of aromatics. This strategy allowed for selectivities up to 60 % for a complex transformation consisting of Diels-Alder cycloaddition, oxabridge opening, decarboxylation, and dehydration. Exploration of the furfural scope yielded generic structure-reactivity-stability relationships. The proposed methodology enabled the redox-efficient, operationally simple, and mild synthesis of renewable (p-disubstituted) aromatics of commercial importance under remarkably mild conditions.

摘要

一种通过 Diels-Alder 芳构化将易于获得的生物基糠醛转化为可再生芳烃的肼介导方法被探索出来,以替代更经典的方法,这些方法依赖于反应性但不经济的还原二烯(例如,2,5-二甲基呋喃)。为了使这些原本无反应性的甲酰基呋喃能够进行环加成反应,研究了通过 N,N-二甲基腙形成来激活底物。反应伙伴的选择是转化成功的关键,在这方面,丙烯酸在芳烃的合成中显示出最有前途的结果。该策略允许在包括 Diels-Alder 环加成、氧桥开环、脱羧和脱水在内的复杂转化中达到高达 60%的选择性。对糠醛范围的探索产生了通用的结构-反应性-稳定性关系。所提出的方法能够在非常温和的条件下,通过氧化还原有效、操作简单和温和的方法合成具有商业重要性的可再生(p-二取代)芳烃。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/93ff/9804822/280c9bb6fe20/CSSC-15-0-g009.jpg
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