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Photocatalytic Water Splitting Driven by Surface Plasmon Resonance

Hao Li, Shengyang Wang, Haibo Chi, Can Li

2023ChemPhotoChem21 citationsDOI

Abstract

Abstract Surface plasmon resonance (SPR) in metals results in unique optical properties and photoelectric functions, which are helpful for light harvesting in photocatalysis. Additionally, the plasmon‐associated charge transfer process gives a complementary platform to understand the charge dynamics at a fundamental level. This Review focused on the recent developments of water splitting by plasmonic metals/semiconductor photocatalysts. Firstly, the basic characteristics of SPR and the plasmon‐enhanced photocatalysis mechanisms including plasmon resonance energy transfer and interfacial charge transfer are introduced, highlighting the recent understanding of the plasmonic electron‐hole separation, distribution, and the reaction sites for water splitting. Then, advances in the strategies to improve the quantum efficiency of plasmon‐induced water splitting are summarized by considering modulation in metals, interface contacts, and bulk properties of semiconductors. Finally, we discuss future prospects in the development of high‐efficiency plasmonic metal/semiconductor photocatalysts for water splitting.

Topics & Concepts

PlasmonSurface plasmon resonanceSemiconductorPhotocatalysisMaterials scienceWater splittingSurface plasmonPhotoelectric effectOptoelectronicsLocalized surface plasmonNanotechnologyResonance (particle physics)Chemical physicsChemistryNanoparticleAtomic physicsPhysicsBiochemistryCatalysisCopper-based nanomaterials and applicationsGold and Silver Nanoparticles Synthesis and ApplicationsAdvanced Photocatalysis Techniques
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