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Advanced III-V Solar Cells with Back Reflectors
Timo Aho
Physics
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Book/Report
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Dive into the research topics of 'Advanced III-V Solar Cells with Back Reflectors'. Together they form a unique fingerprint.
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Keyphrases
Back Reflector
100%
III-V Solar Cells
100%
Solar Cell
71%
Quantum Dot Sensitized Solar Cell (QDSSC)
57%
GaAs Quantum Dot
42%
Solar Cell Architecture
42%
Dilute Nitrides
28%
Reflector
28%
Grating
28%
Quantum Dots
14%
Molecular Beam Epitaxy
14%
High Power
14%
Manufacturing Cost
14%
Resilience
14%
GaInNAs
14%
Solar Radiation
14%
Conversion Efficiency
14%
Spectral Range
14%
Short-circuit Current Density
14%
III-V Semiconductors
14%
Nitride Materials
14%
Space Application
14%
Electron Beam Irradiation
14%
Effective Absorption
14%
Photocurrent Generation
14%
Multijunction Solar Cells
14%
Open-circuit Voltage
14%
Advanced Solar Cells
14%
High Photocurrent
14%
Expected Outcomes
14%
Band Gap Energy
14%
High Current
14%
Current Matching
14%
Light Diffraction
14%
III-V Materials
14%
Power-to-weight Ratio
14%
Back Contact
14%
Ag-Cu
14%
Emerging Materials
14%
High Reflectance
14%
Exceptional Performance
14%
III-V Substrates
14%
Parametrization Model
14%
Absorption Length
14%
Optical Management
14%
Standard Wafer
14%
Engineering
Back Reflector
100%
Solar Cell
100%
Quantum Dot
41%
Gallium Arsenide
25%
Thin Films
16%
Dilute Nitride
16%
Manufacturing Cost
8%
Spectral Range
8%
Solar Radiation
8%
Conversion Efficiency
8%
Short-Circuit Current Density
8%
Nitride Material
8%
Space Application
8%
Photocurrent
8%
Open Circuit Voltage
8%
Multijunction Solar Cell
8%
III-V Semiconductor
8%
Dot Layer
8%
Back Contact
8%
Absorption Length
8%
Band Gap
8%
Parametrization
8%
Reflectance
8%