MXene对锌-空气电池双金属催化剂催化性能的影响

doi:10.11896/cldb.24020010

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Abstract The development of cathode catalysts with high oxygen reduction and oxygen evolution performance, stable and low-cost is the key to the industrialization of zinc-air batteries. In this work, FeNiSNC7∶3@MXene bimetallic composites were prepared as cathode catalysts for zinc-air batteries using FeCl₃, NiCl₂, ZnCl₂ and formamide as raw materials, and the phase composition, microscopic morphology, elemental composition, electrochemical properties and battery properties were analyzed by hydrothermal-synthesis, high-temperature, carbonization, low-temperature vulcanization. The battery prepared by this catalytic material has a narrow voltage gap of 0.74 V and a peak power density of 179 mW/cm² in the battery test, which provides a new idea for the combination of two-dimensional materials and non-noble metal catalysts to improve the performance of zinc-air battery catalysts.

Key words： MXene materials bimetallic composite catalysts hydrothermal synthesis high-temperature carbonization low-temperature vulcanization

Published: 25 January 2025 Online: 2025-01-21

CLC number:

TQ152

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	Articles by authors
	MA Runshan
	WANG Haiyan
	ZHANG Qi
	YANG Jianxin
	TANG Bin
	LI Rui
	LI Shuangshou
	LIN Wanming
	FAN Jinping

Cite this article:

MA Runshan,WANG Haiyan,ZHANG Qi, et al. Effect of MXene on the Catalytic Performance of Bimetallic Catalysts for Zinc-Air Batteries[J]. Materials Reports, 2025, 39(2): 24020010-8.

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https://www.mater-rep.com/EN/10.11896/cldb.24020010 OR https://www.mater-rep.com/EN/Y2025/V39/I2/24020010

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