INIS
quenching (fluorescence)
100%
perovskites
100%
diffusion
100%
quantum dots
100%
quenching
83%
semiconductor materials
33%
size
33%
fluorescence
33%
surfaces
33%
applications
33%
films
33%
nanoparticles
33%
solutions
33%
thin films
33%
dynamics
33%
steady-state conditions
16%
charge carriers
16%
sinks
16%
trapping
16%
time resolution
16%
stabilization
16%
optical properties
16%
efficiency
16%
levels
16%
modeling
16%
information
16%
harvesting
16%
microscopes
16%
mixtures
16%
nanostructures
16%
proposals
16%
heavy metals
16%
energy transfer
16%
indium phosphides
16%
energy
16%
excitation
16%
dyes
16%
electronic equipment
16%
spectrometers
16%
toxicity
16%
Keyphrases
Fluorescence Quenching
100%
CsPbBr3 Perovskite
100%
Diffusion Control
100%
Quantum Dots
100%
Quencher
40%
CuInS2
20%
Low Toxicity
20%
Micrometer Size
20%
Steady State
20%
Colloidal Semiconductor Quantum Dots
20%
Charge Carrier Trapping
20%
Energy Demand
20%
Theoretical Modeling
20%
Collisional Quenching
20%
Optical Properties
20%
Quenching Process
20%
Single-molecule Fluorescence Resonance Energy Transfer (smFRET)
20%
Steady Time
20%
Perovskite
20%
Light Harvesting
20%
In Films
20%
Excitation Energy
20%
State-resolved
20%
Time-resolved
20%
Quenching Efficiency
20%
Dye Assembly
20%
Versatile Material
20%
Fluorescence Microscope
20%
Nanoscale Electronics
20%
Semiconductor Nanoparticles
20%
Heavy Metals
20%
Electronic Devices
20%
Spectrometer
20%
Optical Measurement
20%
Nanoparticles
20%
Engineering
Quantum Dot
100%
Surface
40%
Assembly
40%
Thin Films
40%
Stabilization
20%
Charge Carrier
20%
Static Process
20%
Spectrometer
20%
Molecular Level
20%
Nanoscale Electronic Device
20%
Semiconductor Nanoparticles
20%
Measurement
20%
Mixture
20%
Application
20%
Building Block
20%
Quenching
20%
Efficiency
20%
Basic Understanding
20%
Excitation Energy
20%
Energy Engineering
20%
Semiconductor Quantum Dot
20%
Heavy Metal
20%
Future Application
20%
Nanoparticles
20%