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W3199382410 abstract "Abstract Hybrid plasmonic nanostructures are built on plasmonic metalnanostructures surrounded by catalytic metals or metal oxides. Recent studies have shown that hybrid plasmonic nanocatalysts can concurrently utilize thermal energy and photon stimuli and exhibit high catalytic activity, selectivity, and stability that are not attainable in conventional purely thermally activated catalytic processes. The hybrid plasmonic photocatalytic approach has recently emerged as an attractive concept for the conversion of solar energy into chemical energy, the distributed synthesis of valuable chemicals such as ammonia with little to no requirement of external heating, and the development of coke‐resistant and selective catalytic processes. The field of hybrid plasmonic photocatalysis has grown tremendously in the last decade. In this review article, the advantages of visible‐light‐augmented hybrid plasmonic photocatalysis over conventional pure thermally activated heterogeneous catalysis are discussed. Fundamental insights are provided into photocatalytic mechanisms by which the photoexcited charge carriers (electrons and holes) are formed and transferred to adsorbates triggering chemical transformations on the surface of hybrid plasmonic nanocatalysts. Computational modeling used for predicting and understanding the photocatalytic activity and selectivity on hybrid plasmonic nanostructures is also reviewed. The review closes with a discussion of the current challenges, new opportunities, and future outlook for hybrid plasmonic photocatalysis." @default.
W3199382410 created "2021-09-27" @default.
W3199382410 creator A5004109027 @default.
W3199382410 creator A5030902865 @default.
W3199382410 creator A5033305405 @default.
W3199382410 creator A5035629506 @default.
W3199382410 creator A5048156295 @default.
W3199382410 creator A5066106617 @default.
W3199382410 creator A5075667963 @default.
W3199382410 creator A5089817706 @default.
W3199382410 date "2021-09-09" @default.
W3199382410 modified "2023-10-10" @default.
W3199382410 title "Photoinduced Electron and Energy Transfer Pathways and Photocatalytic Mechanisms in Hybrid Plasmonic Photocatalysis" @default.
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