Multijunction solar cells with subcell materials highly lattice-mismatched to germanium

Abstract

The performance of a series of metamorphic GaInP and GaInAs solar cells grown on Ge with lattice-mismatch ranging from 0% to 2.4% is reported, with emphasis on device structures with 0.5% and 1.6% mismatch. Dual-junction cells with moderately lattice-mismatched (0.2% and 0.5%) structures have already reached electrical performance comparable to lattice-matched devices, at about 26% efficiency under AM0, 1-sun condition. Development efforts to date on highly lattice-mismatched (1.6% mismatch) structures have resulted in 22.6% efficiency dual-junction cells, with many improvements still possible. Spectral response measurements reveal excellent quantum efficiency (QE) for metamorphic GaInP and GaInAs materials, with a measured internal QE of over 90%. The offsets between the bandgap voltage (E/sub g//q) and the open-circuit voltage (V/sub OC/) of GaInP and GaInAs metamorphic cells were kept below 550 mV and 450 mV, respectively. Experimental results indicate that lattice-mismatched GalnP/GalnAs dual-junction cells can achieve higher energy conversion efficiency than lattice-matched GaInP/GaInAs dual-junction solar cells.