Issue 22, 2024

Full-spectrum plasmonic semiconductors for photocatalysis

Abstract

Localized surface plasmon resonance (LSPR) of noble metal nanoparticles can focus surrounding light onto the particle surface to boost photochemical reactions and solar energy utilization. However, the rarity and high cost of noble metals limit their applications in plasmonic photocatalysis, forcing researchers to seek low-cost alternatives. Recently, some heavily doped semiconductors with high free carrier density have garnered attention due to their metal-like LSPR properties. However, plasmonic semiconductors have complex surface structures characterized by the presence of a depletion layer, which poses challenges for active site exposure and hot carrier transfer, resulting in low photocatalytic activity. In this review, we introduce the essential characteristics and types, synthesis methods, and characterization techniques of full-spectrum plasmonic semiconductors, elucidate the mechanism of full-spectrum nonmetallic plasmonic photocatalysis, including the local electromagnetic field, hot carrier generation and transfer, the photothermal effect, and the solutions for the surface depletion layer, and summarize the applications of plasmonic semiconductors in photocatalytic environmental remediation, CO2 reduction, H2 generation, and organic transformations. Finally, we provide a perspective on full-spectrum plasmonic photocatalysis, aiming to guide the design and development of plasmonic photocatalysts.

Graphical abstract: Full-spectrum plasmonic semiconductors for photocatalysis

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Article information

Article type
Review Article
Submitted
30 apr 2024
Accepted
25 jul 2024
First published
27 jul 2024

Mater. Horiz., 2024,11, 5470-5498

Full-spectrum plasmonic semiconductors for photocatalysis

X. Liu, B. Huang, J. Li, B. Li and Z. Lou, Mater. Horiz., 2024, 11, 5470 DOI: 10.1039/D4MH00515E

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