Photo-Induced Unpinning of Fermi Level in WO3

Steve P. Wilks; Giorgio Sberveglieri; Giuliano Martinelli; Thierry G.G. Maffeis; Vincenzo Guidi; Alessio Giberti; Guido Faglia; Elisabetta Comini; Maria C. Carotta; Cesare MalagÃƒÂ¹

doi:10.3390/s5120594

Sensors (Dec 2005)

Photo-Induced Unpinning of Fermi Level in WO3

Steve P. Wilks,
Giorgio Sberveglieri,
Giuliano Martinelli,
Thierry G.G. Maffeis,
Vincenzo Guidi,
Alessio Giberti,
Guido Faglia,
Elisabetta Comini,
Maria C. Carotta,
Cesare MalagÃƒÂ¹

Affiliations

Steve P. Wilks
Giorgio Sberveglieri
Giuliano Martinelli
Thierry G.G. Maffeis
Vincenzo Guidi
Alessio Giberti
Guido Faglia
Elisabetta Comini
Maria C. Carotta
Cesare MalagÃƒÂ¹

DOI: https://doi.org/10.3390/s5120594
Journal volume & issue: Vol. 5, no. 12
pp. 594 – 603

Abstract

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Atomic force and high resolution scanning tunneling analyses were carried out onnanostructured WO3 films. It turned out that the band gap measured by scanning tunnelingspectroscopy at surface is lower than the band gap reported in the literature. This effect isattributed to the high density of surface states in this material, which allows tunneling intothese states. Such a high density of surface states pins the Fermi level resulting in modestsurface activity at room temperature. Photo activation of WO3 results in unpinning of theFermi level and thereby in higher chemical activity at surface.

Published in Sensors

ISSN: 1424-8220 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Technology: Chemical technology
Website: http://www.mdpi.com/journal/sensors

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