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Electronic relaxation dynamics in coupled metal nanoparticles
Mark J. Feldstein
, Christine D. Keating
, Yish Hann Liau
, Michael J. Natan
, Norbert F. Scherer
University of Pennsylvania
Pennsylvania State University
The University of Chicago
Research output
:
Contribution to journal
›
Article
›
peer-review
142
Scopus citations
Overview
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Keyphrases
Metal Nanoparticles
100%
Electron Lifetime
100%
Relaxation Dynamics
100%
Hot Electrons
100%
Electronic Relaxation
100%
Film Growth
50%
Colloids
50%
Surface Scattering
50%
Electron Oscillation
50%
Phonon Resonance
50%
Resonance Detuning
50%
Spectroscopic Measurement
25%
Physical Characteristics
25%
Scanning Probe Microscopy
25%
Mechanism-based
25%
Lifetime Measurement
25%
Relative Contribution
25%
Growth Pattern
25%
Size Dependence
25%
Electron-phonon Coupling
25%
Atomic Force Microscope
25%
Film Thickness
25%
Electron Mobility
25%
Film Structure
25%
Aggregate Size
25%
Surface Electrons
25%
Chemistry Techniques
25%
Microscope Measurement
25%
Conduction Mechanism
25%
Optical Scanning
25%
Physical Electronics
25%
Ultrafast Pump-probe Spectroscopy
25%
Time-resolved Laser Spectroscopy
25%
Electronic Conduction
25%
Interparticle Coupling
25%
Polycrystalline Films
25%
Colloidal Au Nanoparticles
25%
Physical Insights
25%
Au Colloids
25%
Material Science
Metal Nanoparticle
100%
Hot Electron
100%
Film
75%
Thin Films
50%
Film Growth
50%
Film Thickness
25%
Optical Spectroscopy
25%
Laser Spectroscopy
25%
Nanoparticle
25%
Electron Mobility
25%