Affiliation:
1. Materials for Energy Conversion and Storage Department of Chemical Engineering Delft University of Technology Van der Maasweg 9 Delft NL‐2629HZ The Netherlands
2. Fundamental Aspects of Materials and Energy Department of Radiation Science and Technology Faculty of Applied Sciences Delft University of Technology Mekelweg 15 Delft NL‐2629 JB The Netherlands
3. Opto‐electronic Materials Department of Chemical Engineering Delft University of Technology Van der Maasweg 9 Delft NL‐2629HZ The Netherlands
Abstract
AbstractAt ambient conditions, rare‐earth oxyhydride thin films show reversible photochromism and photoconductivity, while their mechanism and relation are still unclear. In this work, this question is explored with in situ time‐resolved measurements of both optical and transport properties of Gd‐based oxyhydride thin films. It is found that p‐type large polaron conduction is the initial mechanism of charge transport; however, upon photo‐darkening, a 104‐fold increase of conductivity occurs, and n‐type carriers become dominant. Further, photochromism and photoconductivity are shown to originate from a single process, as indicated by the fact that the photoconductivity is exponentially proportional to the increase of optical absorption. This exponential relation, notably, cannot stem from any of the optically absorbing species thought responsible for photochromism and, therefore, suggests that their formation is accompanied by a concerted increase of negative charge carriers in the Gd oxyhydride films.
Funder
Nederlandse Organisatie voor Wetenschappelijk Onderzoek
Subject
Atomic and Molecular Physics, and Optics,Electronic, Optical and Magnetic Materials
Cited by
3 articles.
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