铁基配位聚合物作为半固态电池-超级电容器混合装置中的电池型电极

Fe-Based Coordination Polymers as Battery-Type Electrodes in Semi-Solid-State Battery-Supercapacitor Hybrid Devices.

作者信息

Wang Kuaibing, Wang Saier, Liu Jiadi, Guo Yuxuan, Mao Feifei, Wu Hua, Zhang Qichun

机构信息

Department of Chemistry, College of Sciences, Nanjing Agricultural University, Nanjing 210095 Jiangsu, P. R. China.

Nanjing Institute of Environmental Sciences, Ministry of Ecology and Environment, Nanjing 210042 Jiangsu, P. R. China.

出版信息

ACS Appl Mater Interfaces. 2021 Apr 7;13(13):15315-15323. doi: 10.1021/acsami.1c01339. Epub 2021 Mar 24.

DOI:10.1021/acsami.1c01339

PMID:33760598

Abstract

One two-dimensional Fe-based metal-organic framework (FeSC1) and one one-dimensional coordination polymer (FeSC2) have been solvothermally prepared through the reaction among FeSO·7HO, the tripodal ligand 4,4',4″--triazine-2,4,6-triyl-tribenzoate (HTATB), and flexible secondary building blocks p/m-bis((1H-imidazole-1-yl)methyl)benzene (bib). Given that their abundant interlayer spaces and different coordination modes, two compounds have been employed as battery-type electrodes to understand how void space and different coordination modes affect their performances in three-electrode electrochemical systems. Both materials exhibit outstanding but different electrochemical performances (including distinct capacities and charge-transfer abilities) under three-electrode configurations, where the charge storage for each electrode material is mainly dominated by the diffusion-controlled section ( ∝ ) through power-law equations. Additionally, the partial phase transformations to more stable FeOOH are also detected in the long-term cycling loops. After coupling with the capacitive carbon-based electrode to assemble into the semi-solid-state battery-supercapacitor-hybrid (sss-BSH) devices, the sss-FeSC1//AC BSH device delivers excellent capacitance, superior energy and power density, and longstanding endurance as well as the potential practical property.

摘要

通过硫酸亚铁七水合物（FeSO₄·7H₂O）、三脚架配体4,4',4''-三嗪-2,4,6-三基三苯甲酸（H₃TATB）和柔性二级结构单元对/间双（（1H-咪唑-1-基）甲基）苯（bib）之间的反应，溶剂热法制备了一种二维铁基金属有机框架（FeSC1）和一种一维配位聚合物（FeSC2）。鉴于它们丰富的层间空间和不同的配位模式，这两种化合物被用作电池型电极，以了解空隙空间和不同的配位模式如何影响它们在三电极电化学系统中的性能。在三电极配置下，两种材料均表现出出色但不同的电化学性能（包括不同的容量和电荷转移能力），其中每种电极材料的电荷存储主要由扩散控制部分（∝）通过幂律方程主导。此外，在长期循环中还检测到部分向更稳定的FeOOH的相变。与电容性碳基电极耦合组装成半固态电池-超级电容器混合（sss-BSH）器件后，sss-FeSC1//AC BSH器件具有出色的电容、卓越的能量和功率密度、长期耐久性以及潜在的实用性能。

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铁基配位聚合物作为半固态电池-超级电容器混合装置中的电池型电极

Fe-Based Coordination Polymers as Battery-Type Electrodes in Semi-Solid-State Battery-Supercapacitor Hybrid Devices.

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