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Metal-Organic Framework Derived Ni 2 P/FeP@NPC Heterojunction as Stability Bifunctional Electrocatalysts for Large Current Density Water Splitting.

Huimin JiangShuo ZhangQiuju FuLi-Ting YanJun ZhangXuebo Zhao
Published in: Molecules (Basel, Switzerland) (2023)
The construction of heterojunction has been widely accepted as a prospective strategy for the exploration of non-precious metal-based catalysts that possess high-performance to achieve electrochemical water splitting. Herein, we design and prepare a metal-organic framework derived N, P-doped-carbon-encapsulated Ni 2 P/FeP nanorod with heterojunction (Ni 2 P/FeP@NPC) for accelerating the water splitting and working stably at industrially relevant high current densities. Electrochemical results confirmed that Ni 2 P/FeP@NPC could both accelerate the hydrogen and oxygen evolution reactions. It could substantially expedite the overall water splitting (1.94 V for 100 mA cm -2 ) which is close to the performance of RuO 2 and the Pt/C couple (1.92 V for 100 mA cm -2 ). In particular, the durability test exhibited that Ni 2 P/FeP@NPC delivers 500 mA cm -2 without decay after 200 h, demonstrating the great potential for large-scale applications. Furthermore, the density functional theory simulations demonstrated that the heterojunction interface could give rise to the redistribution of electrons, which could not only optimize the adsorption energy of H-containing intermediates to achieve the optimal Δ G H * in a hydrogen evolution reaction, but also reduce the Δ G value in the rate-determining step of an oxygen evolution reaction, thus improving the HER/OER performance.
Keyphrases
  • metal organic framework
  • visible light
  • density functional theory
  • solar cells
  • perovskite solar cells
  • molecular dynamics
  • gold nanoparticles
  • ionic liquid
  • label free
  • high resolution
  • highly efficient
  • human health