Volume 2, 2024

A bi-functional air electrode developed from a dual-MOF strategy for high-performance zinc–air batteries

Abstract

A durable, high-performing and cost-effective bi-functional catalyst toward oxygen reduction/evolution reactions (ORR/OER) is the key towards the practical application of Zn–air batteries (ZABs). Here, we report a new concept of combining pristine and carbonized MOFs for developing a bifunctional electrocatalyst for ZABs, where the pristine MOF acts as a support for the OER catalysts and the carbonized MOF acts as the ORR catalyst and enhances the electronic conductivity. By electroless NiP-plating over the surface of the Fe-containing 3D MOF (MIL-100), the catalyst shows superior activity for the OER, delivering a current density of 10 mA cm−2 at an overpotential of 295 mV together with a low Tafel slope of 62 mV dec−1. A 3D porous MOF serves as a substrate for growing NiP with maximal exposed active sites and the iron in the MOF interacts with NiP to further boost the intrinsic OER activity. Subsequently, we introduce carbonized ZIF-67 (C-ZIF-67) into NiP-MIL-100 to build a bifunctional catalyst, where C-ZIF-67 not only provides ORR catalytic activity but also creates a synergetic effect with NiP-MIL-100, and to expedite the charge/mass transfer. Using this air electrode for ZABs, an excellent bifunctionality with a small potential gap (0.78 V), a high peak power density (203 mW cm−2) and robust cycling over a period of 500 h were achieved.

Graphical abstract: A bi-functional air electrode developed from a dual-MOF strategy for high-performance zinc–air batteries

Supplementary files

Article information

Article type
Paper
Submitted
12 Janv. 2024
Accepted
18 Apr. 2024
First published
19 Apr. 2024
This article is Open Access
Creative Commons BY license

EES. Catal., 2024,2, 968-979

A bi-functional air electrode developed from a dual-MOF strategy for high-performance zinc–air batteries

Y. Arafat, M. R. Azhar, Y. Zhong, X. Xu, M. O. Tadé and Z. Shao, EES. Catal., 2024, 2, 968 DOI: 10.1039/D4EY00008K

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