Keyphrases
Self-assembly Method
66%
Squaraine
66%
Structural Disorder
66%
Optical Properties
66%
Outer Wall
66%
Molecular Nanotube
66%
Nanoaggregates
66%
Spectral Dynamics
66%
Double Wall
44%
Exciton
38%
Matrix Technique
33%
Excited States
33%
Aggregate Structure
33%
Organic Photovoltaics
33%
Blue Shift
33%
Absorption Spectra
33%
Patch Formation
22%
Synthetic System
22%
Functional Materials
22%
Engineering Application
22%
Global Orientation
22%
Inner Wall
22%
Molecular Dynamics Simulation
22%
Biological Systems
22%
Cryogenic Electron Microscopy
22%
Benchmark System
22%
Material Engineering
22%
Supramolecular Self-assembly
22%
Materials for Medical Applications
22%
Microfluidics
22%
Nearest Neighbor
16%
Pulse Excitation
16%
Photovoltaic Applications
16%
Charge-transfer Interaction
16%
Intramolecular Charge Transfer
16%
Transient Absorption Spectra
16%
Femtosecond Pulses
16%
Probe Pulse
16%
Next-nearest Neighbor
16%
Dipole Resonance
16%
Butyl
16%
H-aggregates
16%
Dipole
16%
Broadband Absorption
16%
Transient Absorption Spectroscopy
16%
Single-exponential Decay
16%
Molecular Aggregates
16%
Absorbance Spectra
16%
Dipole-dipole Interaction
16%
Resonant Interaction
16%
Engineering
Transients
66%
Structural Disorder
66%
Scattering Matrix
66%
Nanotube
66%
Assembly Process
66%
Photovoltaics
55%
Nearest Neighbor
44%
Organic Solar Cells
44%
Thin Films
44%
Hydrogen Production
33%
Coupling Strength
33%
Bound State
33%
Bridging
33%
Excited State
22%
Assuming
22%
Fundamental Process
22%
Engineering
22%
Exponential Decay
22%
Computer Simulation
22%
Transmissions
22%
Engineering Application
22%
Femtosecond Pulse
22%
Medical Applications
22%
Dipole Interaction
22%
Chemistry
Absorption Spectrum
100%
Exciton
100%
Squaraine
66%
Structure
66%
Charge Transfer State
66%
Optical Property
66%
Red
33%
Blue
33%
Liquid Film
33%
Organic Solar Cells
33%
Bound State
16%
Excited State
16%
Photoluminescence
16%
Hydrogen Production
16%
Molecular Structure
16%
Absorption Spectroscopy
16%
Linewidth
16%
Statistical Ensemble
16%
Dipole Interaction
16%
Charge Transfer Interaction
16%