Add to ORKGWe discuss recent developments in III-V multijunction solar cells, focusing on adding a fourth junction to the Ga0.5In0.5P/GaAs/Ga0.75In0.25As inverted three-junction cell. This cell, grown inverted on GaAs so that the lattice-mismatched Ga0.75In0.25As third junction is the last one grown, has demonstrated 38% efficiency, and 40% is likely in the near future. To achieve still further gains, a lower-bandgap GaxIn1-xAs fourth junction could be added to the three-junction structure for a four-junction cell whose efficiency could exceed 45% under concentration. Here, we present the initial development of the GaxIn1-xAs fourth junction. Junctions of various bandgaps ranging from 0.88 to 0.73 eV were grown, in order to study the effect of the dif...
Multijunction solar cells consisting of three, series-connected, p-n junctions represent the state-o...
III-V multi-junction solar cells have become standard in space and in terrestrial concentrator syste...
Development of next generation high efficiency space monolithic multifunction solar cells will invol...
We demonstrate high efficiency performance in two ultra-thin, Ge-free III-V semiconductor triple-jun...
Triple-junction solar cells from III–V compound semiconductors have thus far delivered the highest s...
We present results from a p-n junction device physics model for GaInP/GaAs/GaInAsP/GaInAs four junct...
Three- and four-junction III-V devices are proposed for ultrahigh-efficiency solar cells using a new...
GaInP/GaAs/GaInAs three-junction cells are grown in an inverted configuration on GaAs, allowing high...
This paper discusses semiconductor device research paths under investigation with the aim of reachin...
We report on the progress made in the development of lattice-matched multijunction solar cells emplo...
We report on the progress in developing lattice-matched GaAs-based solar cells with focus on develop...
The highest solar cell efficiencies today are reached with four-junction devices under concentrated ...
Nonradiative recombination in inverted GaInP junctions is dramatically reduced using a rear-heteroj...
Growth of GaSb with low threading dislocation density directly on GaAs may be possible with the stra...
Multijunction solar cells with four junctions are expected to be the next-generation technology for ...
Multijunction solar cells consisting of three, series-connected, p-n junctions represent the state-o...
III-V multi-junction solar cells have become standard in space and in terrestrial concentrator syste...
Development of next generation high efficiency space monolithic multifunction solar cells will invol...
We demonstrate high efficiency performance in two ultra-thin, Ge-free III-V semiconductor triple-jun...
Triple-junction solar cells from III–V compound semiconductors have thus far delivered the highest s...
We present results from a p-n junction device physics model for GaInP/GaAs/GaInAsP/GaInAs four junct...
Three- and four-junction III-V devices are proposed for ultrahigh-efficiency solar cells using a new...
GaInP/GaAs/GaInAs three-junction cells are grown in an inverted configuration on GaAs, allowing high...
This paper discusses semiconductor device research paths under investigation with the aim of reachin...
We report on the progress made in the development of lattice-matched multijunction solar cells emplo...
We report on the progress in developing lattice-matched GaAs-based solar cells with focus on develop...
The highest solar cell efficiencies today are reached with four-junction devices under concentrated ...
Nonradiative recombination in inverted GaInP junctions is dramatically reduced using a rear-heteroj...
Growth of GaSb with low threading dislocation density directly on GaAs may be possible with the stra...
Multijunction solar cells with four junctions are expected to be the next-generation technology for ...
Multijunction solar cells consisting of three, series-connected, p-n junctions represent the state-o...
III-V multi-junction solar cells have become standard in space and in terrestrial concentrator syste...
Development of next generation high efficiency space monolithic multifunction solar cells will invol...