Litcius/Paper detail

Semiconducting metal oxide photonic crystal plasmonic photocatalysts

Collins, Gillian, Lonergan, Alex, McNulty, David, Glynn, Colm, Buckley, Darragh, Changyu, Hu, O'Dwyer, Colm

2020Arrow@dit (Dublin Institute of Technology)38 citations

Abstract

Plasmonic photocatalysis has facilitated rapid progress in enhancing photocatalytic efficiency under visible light irradiation. Poor visible‐light‐responsive photocatalytic materials and low photocatalytic efficiency remain major challenges. Plasmonic metal–semiconductor heterostructures where both the metal and semiconductor are photosensitive are promising for light harvesting catalysis, as both components can absorb solar light. Efficiency of photon capture can be further improved by structuring the catalyst as a photonic crystal. Here, the synthesis of photonic crystal plasmonic photocatalyst materials using Au nanoparticle‐functionalized inverse opal (IO) photonic crystals is reported. A catalyst prepared using a visible‐light‐responsive semiconductor (V2O5) displayed over an order of magnitude increase in reaction rate under green light excitation (λ = 532 nm) compared to no illumination. The superior performance of Au‐V2O5 IO is attributed to spectral overlap of the electronic bandgap, localized surface plasmon resonance, and incident light source. For the Au‐TiO2 catalyst, despite coupling of the LSPR and excitation source at λ = 532 nm, this is not as effective in enhancing photocatalytic activity compared to carrying out the reaction under broadband visible light, which is attributed to improved photon adsorption in the visible by the presence of a photonic bandgap, and exploiting slow light in the photonic crystal to enhance photon absorption to create this synergistic type of photocatalyst.

Topics & Concepts

Materials sciencePhotocatalysisVisible spectrumPhotonic crystalOptoelectronicsPlasmonBand gapSemiconductorSurface plasmon resonanceHeterojunctionAbsorption (acoustics)PhotonicsNanoparticlePhotochemistryNanotechnologyCatalysisComposite materialChemistryBiochemistryAdvanced Photocatalysis TechniquesCopper-based nanomaterials and applicationsQuantum Dots Synthesis And Properties