Engineering
Solar Cell
100%
Multijunction Solar Cell
57%
Gallium Arsenide
54%
Junction Cell
28%
Junction Solar Cell
24%
Conversion Efficiency
17%
Space Solar Cell
14%
Photovoltaic System
13%
Open Circuit Voltage
12%
Space Application
11%
Minority Carriers
11%
Cell Performance
11%
Photovoltaics
10%
Contact Solar Cell
10%
Carrier Lifetime
10%
Cell Design
10%
Solar Spectra
9%
Thermophotovoltaic
9%
Passivation
9%
Silicon Solar Cell
9%
Heterojunctions
8%
Reflectance
8%
Operating Temperature
8%
Back Contact
7%
Bulk Lifetime
7%
Energy Gap
7%
Concentrated Photovoltaics
7%
Polycrystalline
7%
Contact Point
6%
Ge Substrate
6%
Surface Recombination Velocity
6%
Spectral Response
6%
Material Quality
5%
Dielectrics
5%
Coupling Effect
5%
Solar Cell
5%
Emitter Saturation Current Density
5%
Quantum Efficiency
5%
External Quantum Efficiency
5%
Short-Circuit Current Density
5%
Cost Reduction
5%
Lattice Constant
5%
Material Science
Solar Cell
63%
Gallium Arsenide
30%
Heterojunction
17%
Density
15%
Photoluminescence
13%
Molecular Beam Epitaxy
10%
Silicon
10%
Photovoltaics
9%
Electronic Circuit
7%
Annealing
7%
Gallium
6%
Carrier Lifetime
6%
Thermophotovoltaics
5%
Germanium
5%
Concentrated Photovoltaics
5%
Keyphrases
Gallium Arsenide
25%
GaInP
18%
Multijunction Solar Cells
17%
Solar Cell
14%
High Efficiency
11%
GaInAs
10%
Triple Junction
10%
Triple-junction Cells
9%
Ge Solar Cells
8%
Triple-junction Solar Cell
7%
Point Contact
6%
Lattice Matching
6%
Dual-junction Solar Cell
6%
Space Application
5%
Concentrator Solar Cells
5%
Multijunction
5%
Molecular Beam Epitaxy
5%
Lattice Mismatch
5%
Concentrator Photovoltaic
5%