Material Science
Film
100%
Thin Films
73%
Quantum Dot
72%
Halide
48%
Density
41%
Metal Halide
29%
Laser Diode
25%
Perovskite Solar Cell
18%
II-VI Semiconductor
13%
Carrier Transport
9%
Chemical Vapor Deposition
9%
ZnO
9%
Oxide Semiconductor
9%
Zinc Oxide
9%
Photovoltaics
9%
Laser Technique
9%
Design Principle
9%
Charge Carrier
9%
Electroluminescence
9%
Device Efficiency
9%
Photonic Crystal
9%
Carrier Mobility
9%
Thin-Film Transistor
9%
Carrier Concentration
7%
Resonator
5%
Oxygen Vacancy
5%
Oxide Film
5%
Optical Pumping
5%
Energy Density
5%
Engineering
Light-Emitting Diode
55%
Room Temperature
36%
Thin Films
35%
Quantum Dot
30%
Hybrid Perovskites
23%
External Quantum Efficiency
20%
Optical Quality
18%
Active Medium
18%
Spin Casting
18%
Band Gap
13%
Optical Gain
12%
Emitting Laser
12%
Spectral Range
11%
Emission Wavelength
10%
Perovskite Solar Cells
9%
Vapor Deposition
9%
Multifunctionality
9%
Photodetector
9%
High Current Density
9%
Nanosecond
9%
Oxygen Vacancy
9%
Chemical Vapor Deposition
9%
Infrared Light
9%
Laser Emission
9%
Safety Integrity Level
9%
Lens System
9%
Lasing Mode
9%
Oxide Film
9%
Diffusion Kinetics
9%
Cavity Surface
9%
Ionization Potential
9%
Phase Separation
7%
Resistance Heating
7%
Ray Photoelectron Spectroscopy
6%
Annealing Temperature
6%
Objective Lens
6%
Carrier Concentration
6%
Physics
Quantum Dot
73%
Distributed Feedback Laser
64%
Thin Films
36%
Exciton
30%
Lasing
30%
Perovskites
27%
Room Temperature
20%
Surface Emitting Laser
9%
Work Function
9%
Laser Arrays
9%
Quasi-Steady State
7%
Zinc Oxide
7%
Near Infrared
6%