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Wide-bandgap space solar cells
Conference Record of the Thirty-first IEEE Photovoltaic Specialists Conference, 2005., 2005The majority of satellites and near-earth probes developed to date have used photovoltaic (PV) arrays for power generation. For future missions probing closer to the sun, solar cells need to be developed that can function at higher temperatures, light intensity, and radiation conditions.
D. Merritt +3 more
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Substrates for wide bandgap nitrides
Journal of Materials Science: Materials in Electronics, 2002Different substrates for gallium nitride growth are discussed. The commercially relevant substrates, silicon carbide and sapphire, and the two most promising alternatives, silicon and gallium nitride, are compared in terms of suitability for epitaxial processes and in their effects on devices. An estimation on future market success is given.
M. Seyboth +6 more
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Wide bandgap electronic materials part I
III-Vs Review, 1992Abstract Over the next two issues we will be summarizing some aspects of recent developments in the wide bandgap semiconductors. Materials which promise optoelectronic devices operating in the visible range include GaN, ZnSe, and SiC. However, a large number of defects and difficulties in preparing n-and p-type material have hampered a broader ...
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Wide Energy Bandgap Electronic Devices
2003* Growth of III-Nitride Semiconductors and Their Characterization (H Morkoc et al.) * GaN and AlGaN High Voltage Power Rectifiers (A-P Zhang et al.) * GaN-Based Power High Electron Mobility Transistors (S Karmalkar et al.) * Fabrication and Performance of GaN MOSFETs and MOSHFETs (C R Abernathy & B P Gila) * SiC Materials Growth and Characterization (M
Fan Ren, John C Zolper
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Methylammonium-free wide-bandgap metal halide perovskites for tandem photovoltaics
Nature Reviews Materials, 2023Alexandra J Ramadan +2 more
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Low-dimensional wide-bandgap semiconductors for UV photodetectors
Nature Reviews Materials, 2023Ziqing Li, Xiaosheng Fang
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Defect activity in metal halide perovskites with wide and narrow bandgap
Nature Reviews Materials, 2021Yang Zhou +2 more
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Wide-bandgap perovskites for indoor photovoltaics
Science Bulletin, 2021Mingjie, Feng +4 more
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