Catalytic Construction of C(sp3)-Ge Bonds: Recent Advances and Future Perspectives

IF 4.4 2区 化学 Q2 CHEMISTRY, APPLIED Advanced Synthesis & Catalysis Pub Date : 2024-10-15 DOI:10.1002/adsc.202401069
Jia-Lin Tu, Binbin Huang
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Abstract

Germanium (Ge), a congener of carbon, possesses unique properties that hold extensive potential for applications across multiple domains. Recent years have seen significant progress in the development of carbon-germanium bond formation strategies, particularly those for more challenging C(sp3)-Ge bonds. This review systematically summarizes the recent advances in C(sp3)-Ge bond forming methodologies, with particular emphasis on (1) the versatility of transition-metals, including iron, nickel, copper, rhodium and palladium, as catalysts in broadening reaction scope and controlling selectivity; (2) the powerfulness of organic photocatalysis in achieving mild and selective bond formation, and (3) the sustainability of catalytic electrosynthesis in facilitating chemical oxidant-/reductant-free conversions. Additionally, examples of (4) non-catalytic strategies are also discussed. The representative scopes, as well as mechanistic proposals, of these protocols are highlighted. Through an overview on the current state of research, this review aims to offer insights into the catalytic construction of C(sp3)-Ge bonds, and provide perspectives on future research directions to address the current challenges.
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C(sp3)-Ge 键的催化构建:最新进展与未来展望
锗(Ge)是碳的同系物,具有独特的性质,在多个领域都有广泛的应用潜力。近年来,碳-锗键形成策略的开发取得了重大进展,尤其是那些更具挑战性的 C(sp3)-Ge 键。本综述系统地总结了 C(sp3)-Ge 键形成方法的最新进展,特别强调:(1) 过渡金属(包括铁、镍、铜、铑和钯)作为催化剂在扩大反应范围和控制选择性方面的多功能性;(2) 有机光催化在实现温和、选择性键形成方面的强大功能;(3) 催化电合成在促进无化学氧化剂/还原剂转化方面的可持续性。此外,还讨论了 (4) 非催化策略的实例。重点介绍了这些方案的代表性范围和机制建议。本综述旨在通过对研究现状的概述,为 C(sp3)-Ge 键的催化构建提供见解,并为应对当前挑战的未来研究方向提供展望。
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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来源期刊
Advanced Synthesis & Catalysis
Advanced Synthesis & Catalysis 化学-应用化学
CiteScore
9.40
自引率
7.40%
发文量
447
审稿时长
1.8 months
期刊介绍: Advanced Synthesis & Catalysis (ASC) is the leading primary journal in organic, organometallic, and applied chemistry. The high impact of ASC can be attributed to the unique focus of the journal, which publishes exciting new results from academic and industrial labs on efficient, practical, and environmentally friendly organic synthesis. While homogeneous, heterogeneous, organic, and enzyme catalysis are key technologies to achieve green synthesis, significant contributions to the same goal by synthesis design, reaction techniques, flow chemistry, and continuous processing, multiphase catalysis, green solvents, catalyst immobilization, and recycling, separation science, and process development are also featured in ASC. The Aims and Scope can be found in the Notice to Authors or on the first page of the table of contents in every issue.
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