纳米晶金属有机骨架超级电容器。

Supercapacitors of nanocrystalline metal-organic frameworks.

机构信息

Department of Chemistry, University of California-Berkeley , Materials Sciences Division at Lawrence Berkeley National Laboratory, and Kavli Energy NanoSciences Institute at Berkeley, Berkeley, California 94720, United States.

出版信息

ACS Nano. 2014 Jul 22;8(7):7451-7. doi: 10.1021/nn5027092. Epub 2014 Jul 10.

DOI:10.1021/nn5027092

PMID:24999543

Abstract

The high porosity of metal-organic frameworks (MOFs) has been used to achieve exceptional gas adsorptive properties but as yet remains largely unexplored for electrochemical energy storage devices. This study shows that MOFs made as nanocrystals (nMOFs) can be doped with graphene and successfully incorporated into devices to function as supercapacitors. A series of 23 different nMOFs with multiple organic functionalities and metal ions, differing pore sizes and shapes, discrete and infinite metal oxide backbones, large and small nanocrystals, and a variety of structure types have been prepared and examined. Several members of this series give high capacitance; in particular, a zirconium MOF exhibits exceptionally high capacitance. It has the stack and areal capacitance of 0.64 and 5.09 mF cm(-2), about 6 times that of the supercapacitors made from the benchmark commercial activated carbon materials and a performance that is preserved over at least 10000 charge/discharge cycles.

摘要

金属-有机骨架（MOFs）的高孔隙率已被用于实现出色的气体吸附性能，但在电化学储能设备中仍在很大程度上未得到探索。本研究表明，纳米晶体（nMOFs）形式的 MOFs 可以掺杂石墨烯，并成功地被纳入器件中作为超级电容器。一系列 23 种不同的具有多种有机官能团和金属离子的 nMOFs，不同的孔径和形状，离散和无限的金属氧化物骨架，大纳米晶体和各种结构类型都已经被制备和检测。该系列的几个成员表现出高电容，特别是锆 MOF 表现出异常高的电容。它的堆积电容和面电容分别为 0.64 和 5.09 mF cm(-2)，约为基于基准商业活性炭材料的超级电容器的 6 倍，且性能在至少 10000 次充放电循环中得以保持。

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纳米晶金属有机骨架超级电容器。

Supercapacitors of nanocrystalline metal-organic frameworks.

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