Doping of the ultrawide band gap semicodnctor LiGaO$_2$ ($E_g=5.6$ eV) with N$_2$, NO and O$_2$ molecules placed in either Ga or Li-vacancies is studied using first-principles calculations. These molecular dopants are considered as potential acceptors for $p$-type doping. Their optimal placement and orientation relative to the lattice is studied as well as their transition levels and energy of formation. Unfortunately, they are found to have deep acceptor level transition states. We discuss the relation of the transition levels to the one-electron levels, their spin state and defect wave functions. They are found to be closely related to those of the corresponding vacancies.
Comment: 8 pages, 8 figures, 1 supplementary material