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CoP@Ni core-shell heterostructure nanowire array: A highly efficient electrocatalyst for hydrogen evolution.

Jiayi Chen1, Xu Li1, Bo Ma1

  • 1Tianjin Key Lab for Photoelectric Materials and Devices, Key Laboratory of Display Materials and Photoelectric Devices, School of Materials Science and Engineering, Tianjin University of Technology, Tianjin 300384, China.

Journal of Colloid and Interface Science
|January 29, 2023
PubMed
Summary
This summary is machine-generated.

A novel CoP@Ni core-shell heterostructure enhances electrocatalytic hydrogen evolution. This catalyst shows superior activity and stability in alkaline solutions, offering a cost-effective alternative for hydrogen production.

Keywords:
ElectrocatalystHeterostructureHydrogen evolution reactionIntrinsic activity

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Area of Science:

  • Materials Science
  • Electrochemistry
  • Catalysis

Background:

  • Non-precious metal catalysts often suffer from suboptimal intermediate adsorption, limiting their efficiency in electrocatalytic hydrogen evolution.
  • Developing efficient and cost-effective electrocatalysts is crucial for sustainable hydrogen production.

Purpose of the Study:

  • To design and synthesize a novel core-shell heterostructure catalyst for improved electrocatalytic hydrogen evolution.
  • To investigate the electronic structure and catalytic activity of the CoP@Ni heterostructure.

Main Methods:

  • Hydrothermal reaction, thermal phosphorization, and electrodeposition were used to create the CoP@Ni core-shell nanowire array.
  • Electrocatalytic performance was evaluated in alkaline electrolyte.
  • Theoretical calculations were performed to understand the electronic structure and reaction mechanism.

Main Results:

  • The CoP@Ni core-shell heterostructure exhibited excellent activity for hydrogen evolution, requiring only 71 mV overpotential to achieve 10 mA cm⁻².
  • The catalyst demonstrated a low Tafel slope of 66 mV dec⁻¹, indicating efficient charge transfer.
  • Theoretical analysis revealed metallic characteristics and a zero-bandgap, facilitating charge transfer and lowering the reaction energy barrier.

Conclusions:

  • The CoP@Ni core-shell heterostructure significantly enhances intrinsic catalytic activity for hydrogen evolution by optimizing intermediate adsorption.
  • Constructing heterostructures is a viable strategy for developing high-performance, cost-effective electrocatalysts for hydrogen production.