posted on 2023-02-06, 18:39authored byWenhan Jia, Hao Wu, Yunxin Zheng, Ziyi Liu, Gaotuo Cai, Jianfeng Wen, Guanghui Hu, Tao Tang, Xinyu Li, Li Jiang, Zhiyong Wang, Ming Li, Haifu Huang
Herein, we demonstrate the enhanced pseudocapacitive
performance
of a MoS2-based flexible supercapacitor by the co-doping
strategy of cations and anions. The MoS2 nanosheet arrays
on carbon cloth are directly doped with N and Co atoms through a simple
hydrothermal process. The obtained cation and anion co-modified MoS2 (N-Co-MoS2) shows improved electron transport
efficiency and enhanced active sites for MoS2. According
to the first-principles calculations, N-Co-MoS2 has a unique
band structure and high electrical conductivity. As expected, N-Co-MoS2 shows higher capacitive performance with 5072.5 mF cm–2 and a better cycle life (retaining 100% capacitance
after 10,000 cycles) than pure MoS2. Furthermore, a solid-state
flexible N-Co-MoS2 supercapacitor device is fabricated
to demonstrate excellent mechanical stability with a specific capacitance
of 3236 mF cm–2 and a stable cycle capacitance of
75.56% after 5000 cycles. In our work, we have provided a reference
for preparing MoS2-based materials with good supercapacitive
performance.