Publications
Enhanced conversion efficiency in wide-bandgap GaNP solar cells
Sukrittanon, S.; Liu, R.; Ro, Y.G.; Pan, J.L.; Jungjohann, Katherine L.; Tu, C.W.; Dayeh, S.A.
In this work, we demonstrate ∼2.05eV dilute nitride GaNP solar cells on GaP substrates for potential use as the top junction in dual-junction integrated cells on Si. By adding a small amount of N into indirect-bandgap GaP, GaNP has several extremely important attributes: a direct-bandgap that is also tunable, and easily attained lattice-match with Si. Our best GaNP solar cell ([N]∼1.8%, Eg∼2.05eV) achieves an efficiency of 7.9%, even in the absence of a window layer. This GaNP solar cell's efficiency is 3× higher than the most efficient GaP solar cell to date and higher than other solar cells with similar direct bandgap (InGaP, GaAsP). Through a systematic study of the structural, electrical, and optical properties of the device, efficient broadband optical absorption and enhanced solar cell performance are demonstrated.