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Iron phosphides nanoparticles strongly coupled to N-doped carbon for high-efficiency oxygen reduction and evolution

APPLIED SURFACE SCIENCE [2025]
Qingsong Luo, Pengfei Zheng, Lina Han, Yidan Fu, Xiaoyuan Zeng, Jing Feng, Yudong Sui, Peng Dong, Yingjie Zhang
ABSTRACT

Constructing composite structures is an effective strategy for tailoring the electronic configuration and balances the adsorption/desorption capability of oxygen-containing intermediates for obtaining high-performance bifunctional catalysts. Herein, an in-situ pyrolysis strategy was used to construct Fe 2 P nanoparticles supported on N-doped carbon (Fe 2 P/NC) catalyst. The DFT indicated that the catalytic activity of the as-prepared catalyst is significantly increased by the strong electronic interaction between the Fe 2 P nanoparticles and the nitrogen-doped carbon, which endows the catalyst with fast electron transfer capability and optimizes the free energy between the catalyst and the adsorbed intermediate, as well as the d-band center of the material. The as-synthesized Fe 2 P/NC has a low potential gap ΔE (ΔE = E j=10 – E 1/2 ) of ca. 0.75 V, a specific capacity as high as 833 mAh·g Zn − 1 and cycling stability for 1320 cycles at the current density of 10 mA·cm −2 . Such a synthesis strategy provides an effective route to realizing applications for portable electronic Zn-air battery-related devices.

MATERIALS

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