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Rational design of superaerophobic array electrode synergy enhanced by wettability engineering and doping engineering for HER catalytic performance

ELECTROCHIMICA ACTA [2024]
Shijun Xu, Yi He, Siming Yan, Teng He, Hongjie Li, Yuan Gao, Wen Chen, Jin Yan, Guiyang Wu, Xi Yuan
ABSTRACT

This article elucidates the synthesis of NiMoO 4 -based catalysts with different arrays and crystal structures, including nanowires (nw), nanoplates (ns), and nanocolumns (nc). Subsequently, a high-temperature phosphorization method was employed to generate the corresponding P-NiMoO 4 catalysts. The study investigates the structural evolution of the catalysts and changes in the active species under operational conditions. Concurrently, density functional theory (DFT) calculations provide a more in-depth description of the HER reaction mechanism, considering d-band centers and adsorption energies. Experimental results demonstrate that phosphorized NiMoO 4 with a nanowire array structure and crystal structures of NiMoO 4 and MoO 3 exhibit the optimal HER performance, displaying superhydrophilic and underwater superaerophobic behaviors. The hydrophilic contact angle is 0°, and the aerophobic contact angle is 156.8° This array electrode achieves a current density of 10 mA·cm −2 at an overpotential as low as 73.97 mV. The experiments indicate that through doping and morphology control engineering, catalytic performance can be further synergistically enhanced, providing a new perspective for preparing HER catalytic electrodes with potential applications.

MATERIALS

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