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Opto-electrical modelling of CIGS solar cells
Nasim Rezaei
Photovoltaic Materials and Devices
Research output
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Thesis
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Dissertation (TU Delft)
467
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INIS
selenides
100%
gallium
100%
indium
100%
copper
100%
modeling
100%
solar cells
100%
antireflection coatings
33%
losses
33%
layers
33%
simulation
20%
absorption
20%
spacers
20%
benchmarks
13%
molybdenum
13%
applications
13%
point contacts
13%
management
13%
thickness
13%
dielectrics
13%
aspect ratio
6%
electrons
6%
air
6%
current density
6%
morphology
6%
efficiency
6%
hybrids
6%
maps
6%
geometry
6%
porous materials
6%
power generation
6%
passivation
6%
interfaces
6%
nonlinear programming
6%
optimization
6%
angle of incidence
6%
compacts
6%
silicon
6%
approximations
6%
holes
6%
architecture
6%
density
6%
volume
6%
refractive index
6%
defects
6%
climatic change
6%
thin films
6%
reflection
6%
performance
6%
tools
6%
buffers
6%
slowdown
6%
environment
6%
periodicity
6%
electric fields
6%
Material Science
Solar Cell
100%
Indium
100%
Gallium
100%
Copper
100%
Al2O3
20%
Optical Loss
13%
Molybdenum
13%
Dielectric Material
13%
Silicon
6%
Density
6%
Air
6%
Refractive Index
6%
Crystalline Material
6%
Engineering
Solar Cell
100%
Models
16%
Benchmark
16%
Dielectrics
16%
Front Side
16%
Photovoltaics
16%
Double Layer
16%
Angle of Incidence
8%
Optimization
8%
Electric Field
8%
Plasmonics
8%
Contact Area
8%
Passivation
8%
Area Coverage
8%
Micron
8%
Windows
8%
Back Contact
8%
Maps
8%
Electrical Loss
8%
High Potential
8%
Density
8%
Reflection Loss
8%
High Efficiency
8%
Defect Density
8%
Photocurrent
8%
Crystalline Silicon
8%
Refractive Index Change
8%
Highlight
8%
Absorption Coefficient
8%
Contact Point
8%
Power Generation
8%