CHAPTER 14. CO2 and Organic Carbonates for the Sustainable Valorization of Renewable Compounds

M. Selva, A. Perosa, G. Fiorani, Lisa Cattelan
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引用次数: 2

Abstract

The present chapter collects and describes representative examples from the current literature on the use of CO2 and Organic Carbonates for the Sustainable Valorization of Renewable Compounds. For the reader's convenience, after an introductory section aimed at highlighting both the potential and challenges associated with the chemical upgrading of renewable compounds, topics are organized in three parts surveying the following subjects: (i) catalytic and photocatalytic routes for both the reduction of CO2 and use of CO2 for the carboxylation of C(sp3)–H bonds and bio-based epoxides, and the methylation of amines; (ii) model strategies for carboxylation and alkylation reactions mediated by non-toxic dialkyl carbonates for the valorization of bio-based platform chemicals including glycerol, succinate, and dimethyl-2,5-furandicarboxylate, and renewable lactones, as well as natural polysaccharides (cellulose, starch, and chitin) and lignin; (iii) the sustainable synthesis of bio-polycarbonates and bio-polyurethanes via sequential transesterification/polycondensation reactions with dialkyl carbonates and cycloadditions of CO2 into renewable epoxides.
第14章。二氧化碳和有机碳酸盐对可再生化合物的可持续增值
本章收集并描述了当前文献中关于利用二氧化碳和有机碳酸盐实现可再生化合物可持续增值的代表性例子。为了读者的方便,在介绍部分旨在强调与可再生化合物的化学升级相关的潜力和挑战之后,主题被组织为三个部分,调查以下主题:(i)二氧化碳的减少和光催化途径,并将二氧化碳用于C(sp3) -H键和生物基环氧化物的羧化,以及胺的甲基化;(ii)无毒碳酸二烷基酯介导的羧化和烷基化反应模型策略,用于生物基平台化学品的增值,包括甘油、琥珀酸盐、二甲基-2,5-呋喃二羧酸盐、可再生内酯以及天然多糖(纤维素、淀粉和几丁质)和木质素;(iii)通过与碳酸二烷基酯的连续酯交换/缩聚反应和二氧化碳的环加成成可再生环氧化物,可持续地合成生物聚碳酸酯和生物聚氨酯。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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