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Defective Biphenylene as High-Efficiency Hydrogen Evolution Catalysts.

Yi LuoYiqiang HeYunfei DingLijie ZuoChengyong ZhongYinchang MaMinglei Sun
Published in: Inorganic chemistry (2023)
Electrocatalysts play a pivotal role in advancing the application of water splitting for hydrogen production. This research unveils the potential of defective biphenylenes as high-efficiency catalysts for the hydrogen evolution reaction. Using first-principles simulations, we systematically investigated the structure, stability, and catalytic performance of defective biphenylenes. Our findings unveil that defect engineering significantly enhances the electrocatalytic activity for hydrogen evolution. Specifically, biphenylene with a double-vacancy defect exhibits an outstanding Gibbs free energy of -0.08 eV, surpassing that of Pt, accompanied by a remarkable exchange current density of -3.08 A cm -2 , also surpassing that of Pt. Furthermore, we find the preference for the Volmer-Heyrovsky mechanism in the hydrogen evolution reaction, with a low energy barrier of 0.80 eV. This research provides a promising avenue for developing novel metal-free electrocatalysts for water splitting with earth-abundant carbon elements, making a significant step toward sustainable hydrogen production.
Keyphrases
  • high efficiency
  • highly efficient
  • metal organic framework
  • visible light
  • atomic force microscopy
  • electron transfer
  • risk assessment
  • gold nanoparticles