Rebola, Alejandro Fong, Dillon D. Eastman, Jeffrey A. Ogut, Serdar Zapol, Peter First-principles study of compensation mechanisms in negatively charged LaGaO3/MgAl2O4 interfaces Thin film oxide heterostructures with a bound charge at the interface require electrical compensation, which can involve redistribution of mobile charge carriers. We explore a model LaGaO3(001)//MgAl2O4(001) heterostructure with nominally negatively charged interfaces using first-principles methods and a Poisson-Boltzmann equation. We find that charge compensation by oxygen vacancies with quadratically decaying concentration away from the interface is more favorable than electronic redistribution. These vacancies have a potential to enhance ionic conductivity along the interfaces. untagged 2014-03-18
    https://indigo.uic.edu/articles/journal_contribution/First-principles_study_of_compensation_mechanisms_in_negatively_charged_LaGaO3_MgAl2O4_interfaces/10774160