posted on 2021-03-02, 14:34authored byJianhua Yan, Yali Huang, Yuanyuan Zhang, Wei Peng, Shuhui Xia, Jianyong Yu, Bin Ding
The
development of efficient and stable catalysts for the oxygen
reduction reaction (ORR) at low cost is crucial for realizing the
large-scale application of metal–air batteries. Herein, we
report an efficient ORR catalyst of bimetallic copper and cobalt fluoride
heterojunctions, which are uniformly dispersed in nitrogen–fluorine–oxygen
triply doped porous carbon nanofibers (PCNFs) that contain hierarchical
macro-meso-micro pores. The composite catalyst materials are fabricated
with a facile and green method of electrospinning with water as the
solvent. By using poly(tetrafluoroethylene) as the pore inducer to
anchor electropositive copper and cobalt salts in the electrospun
hybrid nanofibers, bimetallic fluoride heterojunctions can be directly
formed in PCNFs after calcination. The hierachical porous structures
provide an effective way to transport matter, while the bimetallic
fluorides expose abundant electroactive sites, both of which result
in stable ORR activities with a high half-wave potential of 0.84 V.
The study proposes a feasible strategy for the fabrication of nonprecious
catalysts.