Recent Development of Carbenes: Synthesis, Structure, Photophysical Properties and Applications

Carbene [Working Title] Pub Date : 2022-01-17 DOI:10.5772/intechopen.101413

Arun K. Manna, Abhineet Verma, Sumit K. Panja, S. Saha

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Abstract

Carbenes are highly reactive intermediates in organic synthesis. These divalent carbon species are generally transient in nature and cannot be isolated. However, they can form stabile metal complexes. Later on, the development of N-heterocyclic carbene (NHC) and other stable carbene led to the application of these carbon (II) donor ligands in the synthesis of complex natural products, transition metal catalysis, organo-catalysis and several other synthetic methodologies. Here in this short review, we will discuss the brief history of the development of carbenes, synthesis of stable carbenes (NHC in particular), and their applications in natural products synthesis transition metal chemistry/organometallics. In addition to synthesis and application, the chapter will consist of a detailed structural analysis of carbenes and exciting photophysics of this class of compounds. Special emphasis will be given to electronic structure. The role of carbene in the development of luminescent NHC transition metal complexes, the tuning of emission properties as well as their active role as photocatalysts in the reduction of CO2 will also be discussed.

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卡贝烯类化合物的合成、结构、光物理性质及应用

卡宾是有机合成中反应性很强的中间体。这些二价碳通常是短暂的，不能被分离出来。然而，它们可以形成稳定的金属配合物。后来，随着n -杂环碳(NHC)和其他稳定碳的发展，这些碳(II)给体在复杂天然产物的合成、过渡金属催化、有机催化等几种合成方法中得到了应用。本文简要介绍了碳烯的发展简史、稳定碳烯的合成(特别是NHC)及其在天然产物合成、过渡金属化学和有机金属化学中的应用。除了合成和应用外，本章还将包括对碳烯的详细结构分析和这类化合物的令人兴奋的光物理学。将特别强调电子结构。本文还将讨论二氧化碳在发光NHC过渡金属配合物中的作用、发射性质的调整以及它们作为光催化剂在CO2还原中的积极作用。

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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Carbene [Working Title]

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