Meng Zhaohui, Yan Wen, Zou Mingye, Miao Hao, Ma Fangxing, Patil Aniruddha B, Yu Rui, Yang Liu Xiang, Lin Naibo
Research Institution for Biomimetics and Soft Matter, Fujian Key Provincial Laboratory for Soft Functional Materials Research, College of Materials, Xiamen University, 422 Siming South Road, Xiamen 361005, People's Republic of China.
Department of Physics, National University of Singapore, 2 Science Drive 3, Singapore 117542, Republic of Singapore.
J Colloid Interface Sci. 2021 Feb 1;583:722-733. doi: 10.1016/j.jcis.2020.08.120. Epub 2020 Sep 15.
NiCoAl layered double hydroxide nanosheets (NiCoAl-LDHNs) were prepared by a one-step solvothermal method. The shape and size of the obtained nanosheets are optimized by adjusting the solvothermal time and the molar concentration ratio of Ni/Co to obtain the electrode material with the best performance. When the solvothermal time is 9 h and the molar concentration ratio of Ni/Co is 1:1, NiCoAl-LDHNs has the best morphology and electrochemical performance. When assembled into a supercapacitor, NiCoAl-LDHN-9 has a high specific capacitance of 1228.5 F g at 1 A g. As the current density is increased to 20 A g, the specific capacitance is 1001.8 F g, which still has a high capacitance retention of 81.6%. When NiCoAl-LDHN-9 was assembled into an asymmetric supercapacitor, NiCoAl-LDHN-9//AC has a specific capacitance of 102.1 F g at 0.5 A g. The asymmetric supercapacitor devices also show excellent electrochemical performance in terms of energy density (35.9 Wh kg at 225.8 W kg), power density (4.8 kW kg at 22.2 Wh kg) and cycle life (capacitance retention rate after 10,000 cycles is 87.1%). Those results indicate that NiCoAl-LDHN have the potential to be promising electrode materials for high performance supercapacitors.
采用一步溶剂热法制备了镍钴铝层状双氢氧化物纳米片(NiCoAl-LDHNs)。通过调节溶剂热时间和镍/钴的摩尔浓度比来优化所得纳米片的形状和尺寸,以获得性能最佳的电极材料。当溶剂热时间为9小时且镍/钴的摩尔浓度比为1:1时,NiCoAl-LDHNs具有最佳的形貌和电化学性能。组装成超级电容器后,NiCoAl-LDHN-9在1 A g时具有1228.5 F g的高比电容。当电流密度增加到20 A g时,比电容为1001.8 F g,仍具有81.6%的高电容保持率。将NiCoAl-LDHN-9组装成不对称超级电容器时,NiCoAl-LDHN-9//AC在0.5 A g时的比电容为102.1 F g。该不对称超级电容器器件在能量密度(225.8 W kg时为35.9 Wh kg)、功率密度(22.2 Wh kg时为4.8 kW kg)和循环寿命(10000次循环后的电容保持率为87.1%)方面也表现出优异的电化学性能。这些结果表明,NiCoAl-LDHN有潜力成为高性能超级电容器的有前景的电极材料。
