INIS
carriers
100%
oxides
100%
transition metals
100%
layers
100%
transport
100%
silicon
100%
heterojunctions
100%
solar cells
100%
interfaces
42%
plasma
38%
boron
33%
efficiency
28%
performance
23%
passivation
19%
devices
19%
doped materials
19%
thickness
14%
films
14%
indium
14%
thin films
14%
engineering
14%
oxygen
9%
conversion
9%
reduction
9%
x radiation
9%
fill factors
9%
optimization
9%
holes
9%
evaporation
9%
increasing
4%
electrons
4%
short circuits
4%
substrates
4%
current density
4%
applications
4%
fabrication
4%
simulation
4%
antireflection coatings
4%
losses
4%
comparative evaluations
4%
sustainability
4%
hydrogenation
4%
tin oxides
4%
defects
4%
voc
4%
Engineering
Solar Cell
100%
Heterojunctions
100%
Plasma Treatment
66%
Conductive
41%
Thin Films
25%
Engineering Method
25%
Passivation
25%
Performance
25%
Efficiency
25%
Electronic Engineering
25%
Thickness
16%
Fill Factor
16%
Properties
16%
Based Solar Cell
16%
Interface Reaction
16%
Band Gap
16%
High Efficiency
16%
Evaporation
16%
Oxygen Content
16%
Application
8%
Oxide Film
8%
Substrates
8%
Back Side
8%
Oxide Layer
8%
Hydrogenated Amorphous Silicon
8%
Defect
8%
Cell Performance
8%
Doped Layer
8%
Measures
8%
Electrical Loss
8%
Oxide Thickness
8%
Conversion Efficiency
8%
Fabrication
8%
Fields
8%
Short-Circuit Current Density
8%
Monolayers
8%
Front Side
8%
Passivation Layer
8%
Double Layer
8%
Sustainable Development
8%
Research
8%
Optical Performance
8%
Material Science
Solar Cell
100%
Silicon
100%
Oxide Compound
100%
Transition Metal Oxide
100%
Heterojunction
100%
Carrier Transport
100%
Boron
36%
Devices
21%
Indium
15%
Thin Films
15%
Film
10%
Electronic Property
10%
Tin Oxide
5%
Materials
5%
Density
5%
Electronic Circuit
5%
Antireflection Coating
5%
Defect
5%
Electron Transfer
5%
Amorphous Silicon
5%
Monolayers
5%
Indium Tin Oxide
5%
Oxide Film
5%
Keyphrases
Improved Fill Factor
8%
ITO Film
8%
Doped Thin Films
8%
Double Layer Antireflection Coating
8%
MoOx Thin Films
8%