Anatase TiO2 deposited at low temperature by pulsing an electron cyclotron wave resonance plasma source

Anatase TiO2 deposited at low temperature by pulsing an electron cyclotron wave resonance plasma source

Abstract Photocatalytic surfaces have the potentiality to respond to many of nowadays societal concerns such as clean H2 generation, CO2 conversion, organic pollutant removal or virus inactivation. Despite its numerous superior properties, the wide development of TiO2 photocatalytic surfaces suffers...

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Autores principales: B. Dey, S. Bulou, T. Gaulain, W. Ravisy, M. Richard-Plouet, A. Goullet, A. Granier, P. Choquet
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2020
Materias:
Medicine
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Science
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Acceso en línea:https://doaj.org/article/868bfbb33dec484aa8e2c57c6dd0dcd7
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Sumario:Abstract Photocatalytic surfaces have the potentiality to respond to many of nowadays societal concerns such as clean H2 generation, CO2 conversion, organic pollutant removal or virus inactivation. Despite its numerous superior properties, the wide development of TiO2 photocatalytic surfaces suffers from important drawbacks. Hence, the high temperature usually required (> 450 °C) for the synthesis of anatase TiO2 is still a challenge to outreach. In this article, we report the development and optimisation of an ECWR-PECVD process enabling the deposition of anatase TiO2 thin films at low substrate temperature. Scanning of experimental parameters such as RF power and deposition time was achieved in order to maximise photocatalytic activity. The careful selection of the deposition parameters (RF power, deposition time and plasma gas composition) enabled the synthesis of coatings exhibiting photocatalytic activity comparable to industrial references such as P25 Degussa and Pilkington Activ at a substrate temperature below 200 °C. In addition, to further decrease the substrate temperature, the interest of pulsing the plasma RF source was investigated. Using a duty cycle of 50%, it is thus possible to synthesise photocatalytic anatase TiO2 thin films at a substrate temperature below 115 °C with a deposition rate around 10 nm/min.

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