This is a demo store. No orders will be fulfilled.

High capacitance and cycling stability of flexible-asymmetric-supercapacitor based on hierarchical NiAlP/NiAl-LDHs@MXene electrodes

JOURNAL OF POWER SOURCES [2022]
Zhilin Zhao, Xinming Wu, Chunyan Luo, Yidan Yang
ABSTRACT

To address the limitations of flexible asymmetric supercapacitor (FASC) with poor stability and low capacitance, highly electrochemically active materials and rational structural design are urgently needed. Herein, a lamellar interwoven heterostructure of NiAlP/NiAl-LDHs@MXene composite electrode with high capacitance and cycling stability was fabricated by hydrothermal reaction and electrostatic assembly. As a result, the NiAlP/NiAl-LDHs@MXene hybrid electrode delivers a high specific capacitance of 3.88 F cm −2 (2589.3 F g −1 ) and excellent cycling stability (91.1% capacity retention after 8000 cycles) at 1.0 mA cm −2 . In addition, the fabricated NiAlP/NiAl-LDHs@MXene//AC FASC exhibits a higher power density of 1800 W kg −1 at the energy density of 81.1 Wh kg −1 . It is worth noting that FASC still exhibits good structural integrity and outstanding stability (96.9% capacity retention after 10000 cycles) after being folded at different angles. Comparative experiments and density functional theory (DFT) reveal that the synergistic effect of NiAlP@NiAl-LDHs and Ti 3 C 2 Cl 2 MXene can provides a large number of hierarchical channels and generates more active sites, which accelerates the rapid migration of electrons and ions during charge and discharge. This work not only provides a promising electrode material for energy storage, but also opens a new idea for the selection of electrode materials for flexible wearable electronic devices.

MATERIALS

Shall we send you a message when we have discounts available?

Remind me later

Thank you! Please check your email inbox to confirm.

Oops! Notifications are disabled.