INIS
annihilation
100%
quantum dots
100%
positrons
100%
lead selenides
100%
thin films
100%
cadmium selenides
100%
solar cells
100%
efficiency
77%
surfaces
55%
cost
44%
semiconductor materials
33%
silicon
33%
stability
33%
market
22%
applications
22%
excitons
22%
probes
22%
synthesis
22%
energy demand
22%
control
11%
increasing
11%
durability
11%
laboratories
11%
traps
11%
sensitivity
11%
manufacturing
11%
energy
11%
low temperature
11%
supply
11%
interactions
11%
glass
11%
plates
11%
electronic structure
11%
space
11%
lead sulfides
11%
defects
11%
devices
11%
ligands
11%
tools
11%
renewable energy sources
11%
size
11%
vacancies
11%
photons
11%
depth
11%
deposition
11%
Engineering
Film Solar Cell
100%
Solar Cell
83%
Semiconductor Quantum Dot
50%
Photovoltaics
50%
Based Solar Cell
33%
High Efficiency
33%
Energy Gap
16%
Global Energy Demand
16%
Term Stability
16%
Glass Plate
16%
Limitations
16%
Powerful Tool
16%
Structure Surface
16%
Related Defect
16%
Mechanisms
16%
Electronics
16%
Large Area
16%
Shockley
16%
Energy Demand
16%
Degradation Mechanism
16%
High Energy
16%
Determines
16%
Experiments
16%
Low-Temperature
16%
High Cost
16%
Material Science
Solar Cell
100%
Quantum Dot
100%
Semiconductor Material
33%
Surface Structure
33%
Silicon
22%
Probe
22%
Temperature
11%
Glass
11%
Devices
11%
Durability
11%
Electronic Structure
11%