金属有机框架导向合成具有增强质子传导性能的结晶离子液体

MOF-Directed Synthesis of Crystalline Ionic Liquids with Enhanced Proton Conduction.

作者信息

Xue Wen-Long, Deng Wei-Hua, Chen Hui, Liu Rui-Heng, Taylor Jared M, Li Yu-Kun, Wang Lu, Deng Yu-Heng, Li Wen-Hua, Wen Ying-Yi, Wang Guan-E, Wan Chong-Qing, Xu Gang

机构信息

Beijing Key Laboratory for Optical Materials and Photonic Devices, Department of Chemistry, Capital Normal University, Beijing, 100048, China.

State Key Laboratory of Structural Chemistry, Fujian Institute of Research on the Structure of Matter, Chinese Academy of Sciences, Fuzhou, Fujian, 350002, China.

出版信息

Angew Chem Int Ed Engl. 2021 Jan 18;60(3):1290-1297. doi: 10.1002/anie.202010783. Epub 2020 Nov 13.

DOI:10.1002/anie.202010783

PMID:32996683

Abstract

Arranging ionic liquids (ILs) with long-range order can not only enhance their performance in a desired application, but can also help elucidate the vital between structure and properties. However, this is still a challenge and no example has been reported to date. Herein, we report a feasible strategy to achieve a crystalline IL via coordination self-assembly based reticular chemistry. IL MOF, was prepared by designing an IL bridging ligand and then connecting them with metal clusters. IL MOF has a unique structure, where the IL ligands are arranged on a long-range ordered framework but have a labile ionic center. This structure enables IL MOF to break through the typical limitation where the solid ILs have lower proton conductivity than their counterpart bulk ILs. IL MOF shows 2-4 orders of magnitude higher proton conductivity than its counterpart IL monomer across a wide temperature range. Moreover, by confining the IL within ultramicropores (<1 nm), IL MOF suppresses the liquid-solid phase transition temperatures to lower than -150 °C, allowing it to function with high conductivity in a subzero temperature range.

摘要

将离子液体（ILs）排列成具有长程有序结构不仅可以提高它们在特定应用中的性能，还有助于阐明结构与性能之间的重要关系。然而，这仍然是一项挑战，迄今为止尚无相关报道。在此，我们报道了一种通过基于配位自组装的网状化学实现结晶离子液体的可行策略。离子液体金属有机框架（IL MOF）是通过设计一种离子液体桥连配体，然后将它们与金属簇连接而制备的。IL MOF具有独特的结构，其中离子液体配体排列在长程有序的框架上，但具有不稳定的离子中心。这种结构使IL MOF突破了典型的限制，即固体离子液体的质子传导率低于其相应的本体离子液体。在很宽的温度范围内，IL MOF的质子传导率比其相应的离子液体单体高2 - 4个数量级。此外，通过将离子液体限制在超微孔（<1 nm）内，IL MOF将液 - 固相变温度抑制到低于 -150 °C，使其能够在零下温度范围内以高传导率发挥作用。

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金属有机框架导向合成具有增强质子传导性能的结晶离子液体

MOF-Directed Synthesis of Crystalline Ionic Liquids with Enhanced Proton Conduction.

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