Everything is imperfect: Studies on point defects in insulators
Licentiate thesis, 2020
have on a material, defects have been widely studied over the last century. However, there are plenty of open questions that concerns
the effect of point defects in materials but also properties of defects that are common across materials.
This thesis consists of studies on equilibrium properties of oxygen vacancies and optical lineshapes of transitions on point defects.
Using first principles calculations, general properties of oxygen vacancies in wide band gap oxides are revealed. The induced defect level of the oxygen vacancy is found to be constant in a number of materials. It is often located in the middle of the band gap and associated with a large structural distortion upon a change in charge state.
Due to the large structural distortion, oxygen vacancies may play a role in luminescence quenching in oxide based phosphors and recombination processes in general. A possible recombination mechanism involving oxygen vacancies is proposed in the oxide phosphor Ce:YAG, which could explain the luminescence quenching.
In connection with luminescence quenching in Ce:YAG, the origin of the phonon side bands of the optical transition is elucidated. Due to the connection between the optical lineshape and the geometry of a point defect, the optical lineshape can be used to identify point defects. The point defect emission in hexagonal boron nitride is addressed and several point defects can be matched to observed emission lines.
boron nitride
band alignment
oxygen vacancies
insulator
optical lineshape
point defects
density functional theory
wide band gap oxides
Author
Christopher Linderälv
Chalmers, Physics, Condensed Matter and Materials Theory
A Unifying Perspective on Oxygen Vacancies in Wide Band Gap Oxides
Journal of Physical Chemistry Letters,;Vol. 9(2018)p. 222-228
Journal article
Linderälv, C. Åberg, D. , Erhart, P. Luminesence quenching via deep defect states : A recombination pathway via oxygen vacancies in Ce-doped YAG
Linderälv, C. Wieczorek, W. Erhart, P. A library of vibrational signatures for the identification of single-photon emitters in hexagonal boron nitride
Subject Categories
Physical Sciences
Infrastructure
C3SE (Chalmers Centre for Computational Science and Engineering)
Publisher
Chalmers
Nexus
Opponent: Dr. Morten Gjerding, Department of Physics, Technical University of Denmark, Denmark