Photochromic behavior of ZnO/MoO3 interfaces.
LABRUGÈRE, Christine
Institut de Chimie de la Matière Condensée de Bordeaux [ICMCB]
Plateforme Aquitaine de Caractérisation des Matériaux [PLACAMAT]
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Institut de Chimie de la Matière Condensée de Bordeaux [ICMCB]
Plateforme Aquitaine de Caractérisation des Matériaux [PLACAMAT]
Language
en
Article de revue
This item was published in
ACS Applied Materials & Interfaces. 2020, vol. 12, n° 41, p. 46972–46980
Washington, D.C. : American Chemical Society
English Abstract
ZnO/MoO3 powder mixture exhibits a huge photochromic effect in comparison with the corresponding single oxides. The coloring efficiency of such combined material after UV-light irradiation was studied in terms of intensity, ...Read more >
ZnO/MoO3 powder mixture exhibits a huge photochromic effect in comparison with the corresponding single oxides. The coloring efficiency of such combined material after UV-light irradiation was studied in terms of intensity, kinetics, and ZnO/MoO3 powder ratio. Additionally, the incidence of the pretreatment step of the ZnO and MoO3 powders under different atmospheres (air, Ar or Ar/H2 flow) was analyzed. The huge photochromic effect discovered herein was interpreted as the creation of “self-closed Schottky barrier” at the solid/solid interfaces between the two oxides, associated with the full redox reaction which can be pictured by the equation ZnO1−ε + MoO3 → ZnO + MoO3−ε. Remarkable optical contrast between virgin and color states as well as self-bleaching in dark allowing the reversibility of the photochromism is emphasized. From this first discovery, deeper characterization of the self-bleaching process shows that the photochromic mechanism is complex with a bleaching efficiency (possibility to come back to the virgin material optical properties without any deterioration) and a bleaching kinetics, which are both dependent on the coloring irradiation time. This demonstrates that the oxygen exchange through the Schottky interface proceeds in at least two convoluted steps: an anionic surface exchange allowing a reversibility of the redox reaction followed by bulk diffusion of the exchanged anions which are then definitively trapped. An emergent “negative photochromism effect” (i.e., photochromism associated with a self-bleaching instead of a darkening under irradiation) is observed after a long irradiation time.Read less <
English Keywords
photochromism
Schottky barrier
interfaces
photoredox
zinc oxide
molybdenum oxide
ANR Project
Fluorures inorganiques photochromes - ANR-16-CE08-0029
Origin
Hal imported