Cu/Cu3P@CNT Flexible Film Electrode for Highly Efficient Electrocatalytic Hydrogen Evolution in Alkaline Solution

Abstract

AbstractGlobal warming and the global energy crisis are worsening owing to the increasing consumption of fossil fuels; thus, there is a need to explore renewable and clean energy sources. The energy conversion efficiency of water electrolysis – an important and feasible means to obtain green hydrogen energy – can be improved by developing catalytic electrode materials with high activity and low overpotential. Herein, low‐temperature phosphating of copper deposited on flexible carbon nanotube (CNT) films was conducted to fabricate high‐performance Cu/Cu3P@CNT electrocatalysts for the hydrogen evolution reaction (HER). The optimal conditions for the preparation of catalytic electrodes were determined by adjusting the electrodeposition time. Owing to the porous CNT framework and the heterostructure of the Cu3P/Cu nanoparticles, the Cu/Cu3P@CNT exhibited long‐term stability and highly efficient catalytic HER in an alkaline electrolyte with an overpotential of only 77 mV at 10 mA cm−2. This study provided a facile strategy for designing inexpensive and efficient electrocatalytic HER systems using highly active transition metal phosphides heterostructures and CNT materials.