Material Science
Quantum Dot
100%
Nanocrystalline Material
92%
Thin Films
66%
Thermoelectrics
66%
Silver
57%
Film
37%
Amorphous Material
35%
Doping (Additives)
28%
Nanowire
28%
Photoluminescence
19%
Thermoelectric Materials
18%
Polystyrene
17%
Density
15%
Electron Transfer
13%
Nanoparticle
13%
Chalcogenides
10%
Materials Class
10%
Hybrid Material
10%
Electron Mobility
10%
Silicon
8%
Electrospinning
8%
Nanofiber
8%
Tin Phosphide
8%
Aerogels
8%
Nanosheet
8%
Transition Metal Dichalcogenide
8%
Cerium Oxide
8%
Charge Trapping
8%
Physical Vapor Deposition
8%
Hole Mobility
8%
Composite Material
8%
Carrier Concentration
7%
Electronic Property
7%
Carrier Lifetime
6%
Annealing
6%
Optical Property
6%
Surface Structure
5%
Nanocrystalline
5%
Photoconductivity
5%
Oxide Compound
5%
Keyphrases
Ag2Se
17%
Amorphous Selenium
17%
Copper Selenide
13%
Thermoelectric Performance
11%
Infrared Photodetection
11%
Cu2Se
10%
Stoichiometry Control
8%
Short Wavelength Infrared Detector
8%
Power Factor Improvement
8%
ZnS Quantum Dots
8%
Hybrid Nanomaterials
8%
Zinc Phosphide
8%
Fluorescent Semiconductor Nanocrystals
8%
Cu2-xSe
8%
Quantum Confinement
8%
Tin Phosphide
8%
Thermoelectric
8%
Aminophosphine
8%
High Performance
8%
Ultralow Dark Current
8%
Ceria
8%
PbS Nanocrystals
8%
Atomic Electronics
8%
Nanocrystal Assemblies
8%
Ligand Engineering
8%
Ag Dopant
8%
Photo-Seebeck Effect
8%
Dopant Atoms
8%
Silver Doping
8%
Reverse Monte Carlo
8%
Bimetallic Metal-organic Framework
8%
Bottom-up Design
8%
Thermoelectric Hybrid
8%
Hybrid Thermoelectric Materials
8%
Nanointerface
8%
Infrared Sensing
8%
In-doped
8%
Dielectric Composites
8%
Thermoelectric Applications
8%
Nitrile Rubber
8%
Mechanical Rejuvenation
8%
Quantum Dot Photodetector
8%
Homojunction
8%
P-type Semiconductor
8%
Nanocrystal Thin Films
8%
CsPbCl3
8%
Perovskite Nanofiber
8%
Silver Chalcogenides
8%
Thermal Infrared
8%
Nano-ink
8%