Vertically oriented Ni-MOF@Co(OH)2 flakes towards enhanced hybrid supercapacitior performance

Two dimensional (2D) materials, with ideal interlayer spacing for ion intercalation/de-intercalation, are quite appealing for hybrid supercapacitors (HSCs) in the pursuit of harvesting promising electrochemical performance. Integrating different 2D materials together is one effective strategy to achieve such goals. However, preserving the ion diffusion channel and accelerating electron transfer should be considered during the compositing process. Herein, we propose a two-step strategy to efficiently composite cobalt hydroxide (Co(OH)(2)) and Ni-based MOF (Ni-MOF-24), in which a vertically oriented Ni-MOF@Co(OH)(2) array on nickel foam is obtained. The maximum specific capacitance of 1448 Fg(-1) (2 Ag-1) is delivered by Ni-MOF@Co(OH)(2). Accordingly, a hybrid Ni-MOF@Co(OH)(2)//AC HSC is thereof assembled, which out-putsa high specific power of 22,400 W kg(-1) and a considerable specific energy of 45.7 Wh kg(-1). (C) 2021 Elsevier Inc. All rights reserved.

Automated summary

By efficiently compositing cobalt hydroxide and Ni-based MOF, a vertically oriented Ni-MOF@Co(OH)(2) array with high specific capacitance is obtained, leading to the assembly of a high-performance hybrid supercapacitor.