用于高性能超级电容器的多孔镍钴层状双氢氧化物纳米球的超快微波辅助合成

Ultrafast Microwave-Assisted Synthesis of Porous NiCo Layered Double Hydroxide Nanospheres for High-Performance Supercapacitors.

作者信息

Yang Xing, He Qing, Hu Longbo, Wang Wanglong, Chen Wenmiao, Fang Xing, Liu Jun

机构信息

Key Laboratory of Air-Driven Equipment Technology of Zhejiang Province, Quzhou University, Quzhou 324000, China.

Department of Mechanical Engineering, Zhejiang University of Technology, Hangzhou 310058, China.

出版信息

Molecules. 2024 May 28;29(11):2546. doi: 10.3390/molecules29112546.

DOI:10.3390/molecules29112546

PMID:38893422

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11173862/

Abstract

Currently, new clean energy storage technology must be effective, affordable, and ecologically friendly so as to meet the diverse and sustainable needs of the energy supply. In this work, NiCo-LDH containing intercalated EG was successfully prepared within 210 s using an ultrafast microwave radiation technique. Subsequently, a series of characterization and systematic electrochemical tests were conducted to analyze the composition, structure, and energy storage mechanism of the NiCo-LDH material. The Ni:Co ratio of 5:5 results in the highest capacitance value of 2156 F/g at 1 A/g and an outstanding rate performance of 86.8% capacity retention rate at 10 A/g. The results demonstrated that the unique porous structure of NiCo-LDH and large layer spacing were conducive to more electrochemical reactions. Additionally, an electrochemical test was carried out on the NiCo-LDH as a hybrid supercapacitor electrode material, with NiCo-LDH-5:5 serving as the positive electrode and activated carbon as the negative electrode, the asymmetric supercapacitor can achieve a maximum energy density of 82.5 Wh kg and power density of 8000 W kg. The NiCo-LDH-5:5//AC hybrid supercapacitors own 81.5% cycle stability and 100% coulombic efficiency after 6000 cycles at 10 A/g.

摘要

目前，新型清洁能源存储技术必须高效、经济且生态友好，以满足能源供应的多样化和可持续需求。在这项工作中，采用超快微波辐射技术在210秒内成功制备了插层有乙二醇的镍钴层状双氢氧化物（NiCo-LDH）。随后，进行了一系列表征和系统的电化学测试，以分析NiCo-LDH材料的组成、结构和储能机制。镍钴比例为5:5时，在1 A/g电流密度下电容值最高可达2156 F/g，在10 A/g电流密度下具有86.8%的出色倍率性能。结果表明，NiCo-LDH独特的多孔结构和较大的层间距有利于更多的电化学反应。此外，以NiCo-LDH作为混合超级电容器电极材料进行了电化学测试，以NiCo-LDH-5:5作为正极，活性炭作为负极，该不对称超级电容器可实现最大能量密度82.5 Wh/kg和功率密度8000 W/kg。NiCo-LDH-5:5//AC混合超级电容器在10 A/g电流密度下经过6000次循环后，具有81.5%的循环稳定性和100%的库仑效率。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ded1/11173862/8ef33506707b/molecules-29-02546-g001.jpg

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用于高性能超级电容器的多孔镍钴层状双氢氧化物纳米球的超快微波辅助合成

Ultrafast Microwave-Assisted Synthesis of Porous NiCo Layered Double Hydroxide Nanospheres for High-Performance Supercapacitors.

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