PLASMON-MEDIATED ELECTROCATALYTIC ACTIVITY OF TIB2 TOWARDS WATER SPLITTING

1 BURAVETS Vladislav
Co-authors:
1 ZABELINA Anna 1 MILIUTINA Elena 2 POPELKOVÁ Daniela 3 HENYCH Jiří 2 ŠŤASTNÝ Martin 1 ŠVORČÍK Vaclav 1 LYUTAKOV Oleksiy
Institutions:
1 University of Chemistry and Technology, Prague, Czech Republic, EU, info@vscht.cz
2 Institute of Inorganic Chemistry of the Czech Academy of Sciences, Husinec-Řež, Czech Republic, EU, sekretar@iic.cas.cz
3 Jan Evangelista Purkyně University, Ústí nad Labem, Czech Republic, EU, incoming@ujep.cz
Conference:
13th International Conference on Nanomaterials - Research & Application, Orea Congress Hotel Brno, Czech Republic, EU, October 20 - 22, 2021
Proceedings:
Proceedings 13th International Conference on Nanomaterials - Research & Application
Pages:
172-176
ISBN:
978-80-88365-00-6
ISSN:
2694-930X
Published:
22nd November 2021
Proceedings of the conference were published in Scopus.
Metrics:
473 views / 358 downloads
Abstract

Environmental problems related to the economy based on fossil fuels are of paramount importance. However, transition to renewable energy sources is restrained by the availability of storage technologies. Electrochemistry is a widely recognized prominent tool to achieve this goal by converting renewable energy into the form of chemical bonds accessible further as fuels, such as hydrogen produced by water splitting. Crucial losses in such process are caused by the high overpotentials, required for water splitting as a hydrogen source. To achieve required efficiency of water splitting appropriate catalysts have to be found with the suitable combination of activity, stability and cost. Nano-structured, two-dimensional materials (2D) are attractive candidates due possessing many of the desired properties and highly tunable characteristics. Employing light allows additional degree of freedom to boost conventional photo-electrocatalysis, in particular plasmon-mediated electrocatalysis. Enhancement of the catalytic activity can be increased even further if the catalytic system absorbs wide range of light spectrum. In this study, we combine plasmon-active Au grating with 2D flakes of TiB2, to perform plasmon-mediated water splitting half-reaction – hydrogen evolution.

Keywords: Hydrogen evolution, photo-electrocatalysis, plasmonics, 2D materials

© This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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