INIS
layers
100%
applications
100%
doped materials
100%
aluminium oxides
100%
films
100%
grass
100%
zinc oxides
100%
electrical conductivity
100%
aluminum
85%
performance
42%
devices
42%
comparative evaluations
28%
deposition
28%
surface area
28%
transparency
28%
glass
28%
thermoelectric materials
28%
surfaces
14%
thickness
14%
interfaces
14%
cost
14%
energy
14%
coatings
14%
power
14%
constraints
14%
growth
14%
optical properties
14%
topography
14%
harvesting
14%
power factor
14%
Keyphrases
Aluminum Oxide
100%
Thermoelectric
100%
Transmittance
100%
Electrical Conductivity
100%
Atomic Layer Deposited
100%
Grass-like
100%
Al-doped ZnO
100%
Aluminum-doped Zinc Oxide
42%
Aluminum Doped Zinc Oxide Films
42%
Atomic Layer Deposition
28%
Alumina Film
28%
Optical Properties
14%
Optical Transparency
14%
Effective Surface Area
14%
Device Performance
14%
High Performance
14%
Energy Harvesting System
14%
Oxide Growth
14%
User Interface
14%
Oxide Thickness
14%
Thermoelectric Materials
14%
Thermoelectric Device
14%
Thick Film
14%
Antireflection Coating
14%
Thermoelectric Performance
14%
N-type Thermoelectric Materials
14%
Windows API
14%
Available Surface Area
14%
Anti-reflective
14%
Thermoelectric Power Factor
14%
Material Science
Thermoelectrics
100%
ZnO
100%
Electrical Conductivity
100%
Aluminum Oxide
100%
Zinc Oxide
85%
Aluminum
85%
Film
42%
Oxide Film
42%
Thermoelectric Materials
28%
Optical Property
14%
Thick Films
14%