Litcius/Paper detail

Perspective on the photochromic and photoconductive properties of Rare-Earth Oxyhydride thin films

B. Dam, F. Nafezarefi, Diana Chaykina, Giorgio Colombi, Ziying Wu, S.W.H. Eijt, Shrestha Banerjee, G. A. de Wijs, Arno P. M. Kentgens

2024Solar Energy Materials and Solar Cells17 citationsDOIOpen Access PDF

Abstract

Rare-Earth oxyhydrides (REH3-2xOx) are characterized by photodarkening when illuminated by photons having an energy exceeding that of the band gap. We propose that the film is segregated in hydrogen rich and hydrogen poor areas. Upon illumination, the excited electrons reduce the three-valent cations inducing an insulator to metal transition in the hydrogen rich entities. These small metallic oxyhydride clusters are responsible for the enhanced optical absorption. In the surrounding semiconductor matrix the photoexcitation induces a transition from p to n-type conductivity. This persistent photoconductivity is due to trapping of the holes by hydride ions. As a result, the Fermi level rises above the conduction band inducing a Burstein-Moss effect and a large increase in the conductivity.

Topics & Concepts

PhotoexcitationPhotoconductivityBand gapHydrogenPhotodarkeningFermi levelMaterials scienceExcited stateConductivitySemiconductorElectronChemistryOptoelectronicsCondensed matter physicsPhotochemistryAtomic physicsPhysicsPhysical chemistryWavelengthOrganic chemistryFiber laserQuantum mechanicsInorganic Chemistry and MaterialsAdvanced Chemical Physics StudiesAdvanced Photocatalysis Techniques