Conquering the impossible: mechanochemistry as a tool for tackling coordination chemistry challenges

RSC Mechanochemistry Pub Date : 2025-03-19 DOI:10.1039/D5MR00005J

Huanxin Zhang, Nathan Davison and Erli Lu

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Abstract

Organic solvents are ubiquitously used in synthetic coordination chemistry, but these solution-based synthetic methods have severe drawbacks, such as the incapability of isolating highly reactive species which react with the solvent molecules, less-controllable heterogeneous reactions when using insoluble substrate(s), and unfavourable solvent molecule coordination. In recent years, coordination chemists have started employing mechanochemical methods (e.g., ball mill) to overcome these drawbacks. Herein, we offer our perspective about how mechanochemical methods have enabled coordination chemists to achieve what would otherwise be impossible. It should be noted that, this perspective should not be treated as a comprehensive review of mechanochemistry in coordination chemistry, instead, a “stepping stone” aiming at inspiring further endeavours. Also, due to the research background of the authors, the selection of examples herein may appear biased towards main-group chemistry, which we feel necessary to remind our readers.

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征服不可能：机械化学作为解决配位化学挑战的工具

有机溶剂在合成配位化学中被广泛使用，但这些基于溶液的合成方法存在严重的缺点，例如不能分离出与溶剂分子反应的高活性物质，当使用不溶性底物时不可控的非均相反应，以及不利的溶剂分子配位。近年来，配位化学家开始采用机械化学方法（如球磨机）来克服这些缺点。在此，我们提出了我们的观点，即机械化学方法如何使配位化学家能够实现否则不可能实现的目标。应当指出，这一观点不应被视为对配位化学中的机械化学的全面审查，而应被视为旨在激发进一步努力的“垫脚石”。此外，由于作者的研究背景，本文的例子选择可能会偏向于主基团化学，我们认为有必要提醒读者。

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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RSC Mechanochemistry

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