Issue 27, 2022

Electron-redistributed Ni–Co oxide nanoarrays as an ORR/OER bifunctional catalyst for low overpotential and long lifespan Li–O2 batteries

Abstract

Lithium–oxygen batteries with extra-high energy density have attracted increasing attention. However, their development is limited by sluggish oxygen redox kinetics, resulting in large overpotential and low cyclic life. Herein, N-NiCoO2/CoO arrays on conductive carbon cloth (noted as NNCO/CC) were designed by a hydrothermal and nitriding method as an ORR/OER bifunctional catalyst for LOB cathode to alleviate this problem. The introduction of N promotes electron redistribution on bimetal sites, which can enhance the affinity of intermediates (O*, LiO2*, Li2O2*) and induce the deposition/decomposition of flake-like amorphous Li2O2. Based on the NNCO/CC cathode, Li–O2 cells exhibit a low overpotential of 0.35 V and improved cycling capability of over 500 cycles at 0.05 mA cm−2. The cycle stability could be maintained over 225 cycles with a limited capacity of 0.2 mA h cm−2. DFT calculations further disclose that NNCO/CC shows a synergistic role in the ORR and OER processes. N-NiCoO2 has a more vital adsorption ability toward key intermediates (LiO2*) in the ORR process and N-CoO has a slight reaction energy barrier in the OER process. The method of regulating the electronic structure of bimetallic oxides to promote synergy in the redox reactions opens up new paths for the functional cathode design of Li–O2 cells.

Graphical abstract: Electron-redistributed Ni–Co oxide nanoarrays as an ORR/OER bifunctional catalyst for low overpotential and long lifespan Li–O2 batteries

Supplementary files

Article information

Article type
Paper
Submitted
04 May 2022
Accepted
17 Jun 2022
First published
20 Jun 2022

J. Mater. Chem. A, 2022,10, 14613-14621

Electron-redistributed Ni–Co oxide nanoarrays as an ORR/OER bifunctional catalyst for low overpotential and long lifespan Li–O2 batteries

W. Wang, J. Cai, H. Wan, W. Cai, Z. Zhu, C. Wang, T. Zhou, Z. Hou, Y. Zhu and Y. Qian, J. Mater. Chem. A, 2022, 10, 14613 DOI: 10.1039/D2TA03604E

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