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Constructing NiSe<sub>2</sub>/MoSe<sub>2</sub> Mott–Schottky Heterojunctions Onto N‐doped Brain Coral‐Carbon Spheres by Phase Separation Strategies for Advanced Energy Conversion Applications

Sining Yun, Zan Gao, Tianxiang Yang, Menglong Sun, Guangping Yang, Ke Wang, Ke Wang, Shuangxi Yuan, Mengmeng Zhang

2023Advanced Functional Materials49 citationsDOI

Abstract

Abstract Constructing Mott–Schottky heterojunctions in nanohybrids is an effective strategy for facilitating electron transfer and optimizing the electronic structure of active sites; however, challenges remain. Herein, a selenium‐induced phase separation strategy is proposed and successfully construct NiSe 2 /MoSe 2 Mott–Schottky heterojunctions on N‐doped brain coral carbon nanospheres (N‐BCCSs). Owing to built‐in electric fields, optimized electronic density, and unique nanoflake/sphere structures, the designed NiSe 2 /MoSe 2 @N‐BCCSs carbon‐based Mott–Schottky catalysts achieved satisfactory electrocatalytic performance. When serving as a counter electrode for the triiodide reduction reaction (IRR), a power conversion efficiency of 8.49% is obtained, which outperformed that of conventional Pt electrodes (7.80%). When the NiSe 2 /MoSe 2 @N‐BCCSs are used as electrocatalysts for the hydrogen evolution reaction (HER), their overpotential (η 10 ) is as low as 119 mV, which is significantly better than that of other transition‐metal selenides. This research demonstrates a new concept for constructing Mott–Schottky heterojunctions and provides a new direction for investigating multifunctional carbon‐based composites.

Topics & Concepts

Materials scienceOverpotentialHeterojunctionSchottky diodeCarbon fibersDopingElectrodeNanotechnologyChemical engineeringOptoelectronicsElectrochemistryPhysical chemistryComposite materialEngineeringComposite numberDiodeChemistryElectrocatalysts for Energy ConversionAdvanced Photocatalysis TechniquesAdvancements in Battery Materials
Constructing NiSe<sub>2</sub>/MoSe<sub>2</sub> Mott–Schottky Heterojunctions Onto N‐doped Brain Coral‐Carbon Spheres by Phase Separation Strategies for Advanced Energy Conversion Applications | Litcius