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In situ encapsulation of abundant WP/Ni 2 P heterointerfaces in N,P co-doped two-dimensional carbon frameworks for boosting hydrogen evolution electrocatalysis.

Dong LiuGuangyu XuBaomin FanHaitao Wang
Published in: Dalton transactions (Cambridge, England : 2003) (2022)
Rational design of an efficient hydrogen evolution reaction (HER) electrocatalyst continues to be a significant challenge for large-scale application of renewable electrochemical energy devices. Herein, an in situ interface engineering strategy is elaborately developed to construct an advanced multi-active component HER electrocatalyst, in which abundant tungsten phosphide (WP) and nickel phosphide (Ni 2 P) heterogeneous interfaces are synchronously encapsulated in nitrogen and phosphorus co-doped two-dimensional carbon frameworks (WP-Ni 2 P@NPC) via convenient solid-phase reaction and subsequent high-temperature pyrolysis. In particular, the type of solid precursor has a critical impact on the formation of a flake-like nanoskeleton and abundant WP/Ni 2 P heterointerfaces. Moreover, the integration of metal phosphide leads to a high graphitization degree of the carbon backbone. Benefitting from the favorable material characteristics of the nitrogen and phosphorus co-doped graphitic nanostructures, and the heterogeneous interface interaction between WP and Ni 2 P, WP-Ni 2 P@NPC possesses superior HER electrocatalytic activity to a single active component catalyst. This work offers an efficient strategy for designing efficient catalysts.
Keyphrases
  • metal organic framework
  • high temperature
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