A surface plasmon polariton-triggered Z-scheme for overall water splitting and solely light-induced hydrogen generation

A surface plasmon polariton-triggered Z-scheme for overall water splitting and solely light-induced hydrogen generation

We propose an advanced design of a plasmon-triggered Z-scheme for efficient overall water splitting (OWS), performed without the addition of sacrificial agents and by utilizing photons with longer wavelengths (close to NIR). As a Z-scheme, we used WO 3 flakes coupled with CdS quantum dots, which ens...

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Veröffentlicht in:Journal of materials chemistry. A, Materials for energy and sustainability Materials for energy and sustainability, 2022-07, Vol.1 (26), p.13829-13838
Hauptverfasser: Zabelin, D, Zabelina, A, Tulupova, A, Elashnikov, R, Kolska, Z, Svorcik, V, Lyutakov, O
Format: Artikel
Sprache:eng
Schlagworte:
Electrochemistry
Excitation
Hydrogen production
Illumination
Light effects
Photons
Polaritons
Quantum dots
Reagents
Water splitting
Wavelengths
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container_end_page 13838
container_issue 26
container_start_page 13829
container_title Journal of materials chemistry. A, Materials for energy and sustainability
container_volume 1
creator Zabelin, D
Zabelina, A
Tulupova, A
Elashnikov, R
Kolska, Z
Svorcik, V
Lyutakov, O
description We propose an advanced design of a plasmon-triggered Z-scheme for efficient overall water splitting (OWS), performed without the addition of sacrificial agents and by utilizing photons with longer wavelengths (close to NIR). As a Z-scheme, we used WO 3 flakes coupled with CdS quantum dots, which ensured OWS under illumination with shorter wavelengths. As a plasmonic support, a periodical Au grating, able to support surface plasmon polariton excitation under NIR illumination, was used. The efficiency of the proposed structure was tested using photo-electrochemical and solely light-induced OWS. It was demonstrated that plasmon triggering makes the utilization of low-energy photons possible in OWS. The amount of light-produced hydrogen increased synergistically under double-wavelengths (simultaneous Z-scheme triggering and plasmon excitation) or broad light spectrum illumination. Thus, our work shows an effective way to increase the efficiency of the Z-scheme for OWS with the complete utilization of sunlight energy. Overall water splitting using the multi-wavelength triggering of the WO 3 -CdS Z-scheme coupled with a plasmon-active gold grating is demonstrated without the addition of a sacrificial agent.
doi_str_mv 10.1039/d2ta02365b
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source Royal Society Of Chemistry Journals 2008-
subjects Electrochemistry
Excitation
Hydrogen production
Illumination
Light effects
Photons
Polaritons
Quantum dots
Reagents
Water splitting
Wavelengths
title A surface plasmon polariton-triggered Z-scheme for overall water splitting and solely light-induced hydrogen generation
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