Department of Chemistry, Indian Institute of Technology Kharagpur, Kharagpur, 721302, India.
College of Materials Science and Engineering, Fujian Provincial Key Laboratory of Polymer Materials, Fujian Normal University, 32 Shangsan Road, Fuzhou, 350007, PR China.
Chemistry. 2019 Feb 1;25(7):1691-1695. doi: 10.1002/chem.201805177. Epub 2019 Jan 2.
Recently, proton conduction has been a thread of high potential owing to its wide applications in fuel-cell technology. In the search for a new class of crystalline materials for protonic conductors, three metalo hydrogen-bonded organic frameworks (MHOFs) based on [Ni(Imdz) ] and arene disulfonates (MHOF1 and MHOF2) or dicarboxylate (MHOF3) have been reported (Imdz=imidazole). The presence of an ionic backbone with charge-assisted H-bonds, coupled with amphiprotic imidazoles made these MHOFs protonic conductors, exhibiting conduction values of 0.75×10 , 3.5×10 and 0.97×10 S cm , respectively, at 80 °C and 98 % relative humidity, which are comparable to other crystalline metal-organic framework, coordination polymer, polyoxometalate, covalent organic framework, and hydrogen-bonded organic framework materials. This report initiates the usage of MHOF materials as a new class of solid-state proton conductors.
最近,质子传导因其在燃料电池技术中的广泛应用而成为一个极具潜力的研究方向。在寻找新型质子导体晶体材料的过程中,报道了三种基于[Ni(Imdz)]和芳烃二磺酸盐(MHOF1 和 MHOF2)或二羧酸酯(MHOF3)的金属-氢键有机骨架(MHOF)(Imdz=咪唑)。这些 MHOF 具有带有电荷辅助氢键的离子骨架,加上两性咪唑,使它们成为质子导体,在 80°C 和 98%相对湿度下的传导值分别为 0.75×10、3.5×10 和 0.97×10 S cm,可与其他晶体金属-有机骨架、配位聚合物、多金属氧酸盐、共价有机骨架和氢键有机骨架材料相媲美。本报告首次将 MHOF 材料用作一类新型固态质子导体。
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