Ruixin Wang scite author profile

The semiconductor structure has a great effect on the conversion of solar energy into hydrogen energy. Herein, the hollow TiO2 composite with an N-doped carbon (NC) layer and evenly dispersed Pt nanoparticles (NC/Pt@TiO2) on its inner surface was prepared through the synchronous precarburization of N-containing polymers and in situ reduction of Pt precursor. Benefiting from all of the well-distributed and Pt nanoparticles that contain both Pt0 and Pt2+, high conductivity of NC layers, high surface area, big bore diameter, and the optimized charge transfer between Pt and NC, the photocatalytic H2 production by NC/Pt@TiO2-900 reaches up to 23.8 mmol·h–1·g–1. Moreover, due to the strong combination of Pt and NC layers through Pt–N bonds, NC/Pt@TiO2-900 still presents good photocatalytic stability. Given all this, this study highlights the greater potential of the thin NC layers in the development of novel photocatalysts with excellent performance.

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Ruixin Wang

N, P-codoped molybdenum carbide nanoparticles loaded into N, P-codoped graphene for the enhanced electrocatalytic hydrogen evolution

A novel strategy for loading metal cocatalysts onto hollow nano-TiO2 inner surface with highly enhanced H2 production activity

Enhanced Photocatalytic Activity by Pt Confined within N-Doped Carbon on TiO₂ Inner Surface

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Ruixin Wang

N, P-codoped molybdenum carbide nanoparticles loaded into N, P-codoped graphene for the enhanced electrocatalytic hydrogen evolution

A novel strategy for loading metal cocatalysts onto hollow nano-TiO2 inner surface with highly enhanced H2 production activity

Enhanced Photocatalytic Activity by Pt Confined within N-Doped Carbon on TiO2 Inner Surface

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Enhanced Photocatalytic Activity by Pt Confined within N-Doped Carbon on TiO₂ Inner Surface