Recent advances in carboxylate-based indium(iii)–organic frameworks

IF 6.1 1区化学 Q1 CHEMISTRY, INORGANIC & NUCLEAR Inorganic Chemistry Frontiers Pub Date : 2024-09-18 DOI:10.1039/D4QI02014F

Yong-Jie Song, Yi-Hao Zuo, Zi-Feng Li and Gang Li

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Abstract

Indium-based metal–organic frameworks (In-MOFs) are gaining popularity as a research topic because of their distinct structural and practical advantages. Researchers understand that the indium atom has a comparatively big radius and is ecologically benign. Importantly, the In(III) cation has a distinct electronic configuration with a high cyclic p-block, and establishes strong coordination bonds with atoms such as O, N, and S in various Lewis acid environments. As a result, the stable In-MOFs with varied structural kinds and chemical properties deserve thorough exploration. The research progress must be properly evaluated to understand the future research trend of In-MOFs better. Furthermore, this analysis of In-MOFs will close gaps in the current literature, and a full assessment of such MOFs will immensely benefit future research. It should be noted that we are primarily interested in MOFs built using carboxylic acid ligands. Herein, we will discuss the preparation methodologies, structural features, and diverse applications of MOFs made up of indium(III) nodes and various linkages, as well as current and prospects.

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羧基铟（III）有机框架的最新进展

铟基金属有机框架（In-MOFs）因其独特的结构和实用优势，正日益成为一个具有吸引力的研究领域。众所周知，铟原子的半径相对较大，而且对环境友好。重要的是，In(III) 阳离子具有独特的电子构型和高循环 p 位，使其能够在各种路易斯酸的存在下与 O、N 和 S 等原子形成强配位键。因此，具有不同结构类型和化学性质的稳定 In-MOFs 构成值得系统研究。为了更好地理解 In-MOFs 的未来研究趋势，有必要对其近期的研究进展进行全面评估。此外，对 In-MOFs 的分析将填补现有文献的空白，我们相信对这类 MOFs 的全面综述对未来研究极具价值。需要注意的是，由于文献中的 In-MOFs 主要由羧酸配体构建而成，因此我们主要综述这类 MOFs。在这篇综述中，我们将总结由铟（III）节点和各种连接组成的 MOF 的制备方法、结构特点和多种用途，以及目前和未来的可能性。

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