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Article Dans Une Revue Faraday Discussions Année : 2019

Plasmonic photocatalysis applied to solar fuels

Résumé

The induction of chemical processes by plasmonic systems is a rapidly growing field with potentially many strategic applications. One of them is the transformation of solar energy into chemical fuel by the association of plasmonic metal nanoparticles (M NPs) and a semiconductor (SC). When the localized surface plasmon resonance (LSPR) and the SC absorption do not match, one limitation of these systems is the efficiency of hot electron transfer from M NPs to SC through the Schottky barrier formed at the M NP/SC interfaces. Here we show that high surface area 1 wt% Au/TiO 2-UV100 , prepared by adsorption of a NaBH 4-protected 3 nm gold sol, readily catalyzes the photoreduction of carbon dioxide with water into methane under both solar and visible-only irradiation with a CH 4 vs. H 2 selectivity of 63%. Tuning Au NP size and titania surface area, in particular via thermal treatments, highlights the key role of the metal dispersion and of the accessible Au-TiO 2 perimeter interface on the direct SC-based solar process. The impact of Au NP density in turn provides evidence for the dual role of gold as co-catalyst and recombination sites for charge carriers. It is shown that the plasmon-induced process contributes up to 20% of the solar activity. The plasmon-based contribution is enhanced by a large Au NP size and a high degree of crystallinity of the SC support. By minimizing surface hydroxylation while retaining a relatively high surface area of 120 m 2 g-1 , pre-calcining TiO 2-UV100 at 450 ○ C leads to an optimum monometallic system in terms of activity and selectivity under both solar and visible irradiation. A state-of-the-art methane selectivity of 100% is achieved in the hot electron process.

Domaines

Chimie Catalyse
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Dates et versions

hal-02391217 , version 1 (06-12-2019)

Identifiants

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Steven Bardey, Audrey Bonduelle-Skrzypczak, Antoine Fecant, Zhenpeng Cui, Christophe Colbeau-Justin, et al.. Plasmonic photocatalysis applied to solar fuels. Faraday Discussions, 2019, 214, pp.417-439. ⟨10.1039/C8FD00144H⟩. ⟨hal-02391217⟩
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