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His interests at NREL have been in the development of next-generation multijunction high-efficiency solar cells for concentrator systems. One of his early focuses after joining the group was to adapt the GaInP/GaAs multijunction cell technology for concentrator operation, developing the first monolithic two-terminal solar cell to have a verified efficiency greater than 30%. More recently, he has studied novel semiconductor materials for photovoltaics, such as GaInNAs for potential application in a 1-eV-bandgap device on conventional GaAs or Ge substrates, as well as developing concepts for junctions suitable for fabrication on Si. His current work centers on development of future generations of lattice-mismatched multijunction cell structures for ultrahigh-efficiency operation under concentration.
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ADVANCED ENERGY MATERIALSno. 10 (2024)
2023 IEEE 50TH PHOTOVOLTAIC SPECIALISTS CONFERENCE, PVSCpp.1-1, (2023)
arXiv (Cornell University) (2023)
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