高质子传导性氢键金属膦酸盐的机械化学制备的合成与监测

Synthesis and Monitoring of Mechanochemical Preparation of Highly Proton Conductive Hydrogen-Bonded Metal Phosphonates.

作者信息

Akhmetova Irina, Rautenberg Max, Das Chayanika, Bhattacharya Biswajit, Emmerling Franziska

机构信息

BAM Federal Institute for Materials Research and Testing, Richard-Willstätter-Str. 11, 12489 Berlin, Germany.

Department of Chemistry, Humboldt-Universität zu Berlin, Brook-Taylor-Str. 2, 12489 Berlin, Germany.

出版信息

ACS Omega. 2023 May 4;8(19):16687-16693. doi: 10.1021/acsomega.2c07883. eCollection 2023 May 16.

DOI:10.1021/acsomega.2c07883

PMID:37214731

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10193405/

Abstract

Crystalline porous materials are recognized as promising proton conductors for the proton exchange membrane (PEM) in fuel cell technology owing to their tunable framework structure. However, it is still a challenging bulk synthesis for real-world applications of these materials. Herein, we report the mechanochemical gram-scale synthesis of two isostructural metal hydrogen-bonded organic frameworks (MHOFs) of Co(II) and Ni(II) based on 1-hydroxyethylidenediphosphonic acid (HEDPH) with 2,2'-bipyridine (2,2'-bipy): Co(HEDPH)(2,2'-bipy)·HO () and Ni(HEDPH)(2,2'-bipy)·HO (). monitoring of the mechanochemical synthesis using different synchrotron-based techniques revealed a one-step mechanism - the starting materials are directly converted to the product. With the existence of extensive hydrogen bonds with amphiprotic uncoordinated phosphonate hydroxyl and oxygen atoms, both frameworks exhibited proton conduction in the range of 10 S cm at room temperature under humid conditions. This study demonstrates the potential of green mechanosynthesis for bulk material preparation of framework-based solid-state proton conductors.

摘要

晶体多孔材料因其可调节的骨架结构而被认为是燃料电池技术中质子交换膜（PEM）有前景的质子导体。然而，对于这些材料的实际应用而言，大规模合成仍然具有挑战性。在此，我们报告了基于1-羟基亚乙基二膦酸（HEDPH）与2,2'-联吡啶（2,2'-bipy）的钴（II）和镍（II）的两种同构金属氢键有机骨架（MHOF）的机械化学克级合成：Co(HEDPH)(2,2'-bipy)·H₂O（）和Ni(HEDPH)(2,2'-bipy)·H₂O（）。使用不同的基于同步加速器的技术对机械化学合成进行监测揭示了一种一步机制——起始材料直接转化为产物。由于存在与两性的未配位膦酸酯羟基和氧原子的广泛氢键，两种骨架在潮湿条件下于室温下均表现出10⁻⁵ S cm⁻¹范围内的质子传导。本研究证明了绿色机械合成在基于骨架的固态质子导体块状材料制备方面的潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4a4d/10193405/c762d15b90b0/ao2c07883_0002.jpg

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高质子传导性氢键金属膦酸盐的机械化学制备的合成与监测

Synthesis and Monitoring of Mechanochemical Preparation of Highly Proton Conductive Hydrogen-Bonded Metal Phosphonates.

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