封装在中空N掺杂碳中的FeCo合金纳米颗粒作为具有低电压间隙的水性锌-空气电池的双功能电催化剂†

IF 5 3区材料科学 Q2 CHEMISTRY, PHYSICAL Sustainable Energy & Fuels Pub Date : 2023-10-03 DOI:10.1039/D3SE01067H

Nan Li, Ting Yang, Hang Lou, Lijuan Huang, Xiaoyu Ma, Hao Jiang, Jiaxiang Xiao, Chao Xie and Yahui Yang

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摘要

开发具有低可逆氧反应电位（ΔE）的双功能催化剂以提高可充电锌-空气电池（ZABs）的能量转换效率和循环稳定性仍然是一个巨大的挑战。本文介绍了一系列含有中空N掺杂碳笼的催化剂，其中包封了FeCo合金纳米颗粒(FexCoy@N-C)通过外延生长然后热解的策略来制造。其中，由于FeCo合金的活性位点与多孔碳的比表面积之间的相对平衡和最佳协同作用FexCoy@N-C-0.3催化剂在氧还原反应（ORR）和析氧反应（OER）中都表现出最佳的电催化性能，ΔE值为0.686VFexCoy@N-C-0.3表现出191 mW cm−2的高峰值功率密度，345小时后电压间隙仅增加约30 mV。值得注意的是，在345小时后，水性ZAB仍保持0.73 V的极小充放电电压间隙，这比许多研究中报道的基于金属催化剂的ZAB的性能要好。此外，基于FexCoy@N-C-0.3催化剂在不同的弯曲状态下表现出优异的50小时循环稳定性和优异的机械稳定性。

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FeCo alloy nanoparticles encapsulated in hollow N-doped carbon as a bifunctional electrocatalyst for aqueous zinc–air batteries with a low voltage gap†

Developing bifunctional catalysts with low reversible oxygen reaction potentials (ΔE) to improve the energy conversion efficiency and cycling stability of rechargeable zinc–air batteries (ZABs) remains a huge challenge. Herein, a series of catalysts containing a hollow N-doped carbon cage with FeCo alloy nanoparticles encapsulated (Fe_xCo_y@N-C) are fabricated by a strategy of epitaxial growth followed by pyrolysis. Thereinto, owing to the relative balance and optimal synergy between the active sites of the FeCo alloy and the specific surface area of porous carbon, the Fe_xCo_y@N-C-0.3 catalyst displays a best electrocatalytic performance in both the oxygen reduction reaction (ORR) and oxygen evolution reaction (OER) with a small ΔE value of 0.686 V. Aqueous ZABs catalyzed by Fe_xCo_y@N-C-0.3 exhibit a high peak power density of 191 mW cm⁻² and the voltage gap only increased by about 30 mV after 345 h. Conspicuously, the aqueous ZABs still maintain an extremely small charge–discharge voltage gap of 0.73 V after 345 h, which is better than the performance of ZABs based on metal catalysts reported in many studies. Moreover, flexible ZABs based on the Fe_xCo_y@N-C-0.3 catalyst demonstrate an excellent cycling stability of 50 h and outstanding mechanical stability under different bending states.

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来源期刊

Sustainable Energy & Fuels Energy-Energy Engineering and Power Technology

CiteScore

10.00

自引率

3.60%

发文量

394

期刊介绍： Sustainable Energy & Fuels will publish research that contributes to the development of sustainable energy technologies with a particular emphasis on new and next-generation technologies.

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