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Optical properties of conductive carbon-based nanomaterials
Tommi Isoniemi
Not published at VTT
University of Jyväskylä
Research output
:
Thesis
›
Dissertation
›
Collection of Articles
Overview
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Dive into the research topics of 'Optical properties of conductive carbon-based nanomaterials'. Together they form a unique fingerprint.
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INIS
carbon
100%
nanomaterials
100%
optical properties
100%
plasmons
100%
surfaces
87%
films
87%
carbon nanotubes
75%
polaritons
75%
polymers
37%
reflection
37%
field effect transistors
37%
thin films
25%
excitation
25%
spectroscopy
25%
resonance
25%
control
12%
interactions
12%
thickness
12%
devices
12%
power
12%
graphene
12%
barriers
12%
silver
12%
nanostructures
12%
configuration
12%
investigations
12%
desorption
12%
anisotropy
12%
chirality
12%
tubes
12%
ellipsometry
12%
polarization
12%
optical microscopes
12%
collective excitations
12%
photosensitivity
12%
Material Science
Nanostructured Material
100%
Surface Plasmons
100%
Optical Property
100%
Carbon Nanotubes
85%
Field Effect Transistors
57%
Polymer Films
42%
Film
42%
Thin Films
28%
Film Thickness
14%
Schottky Barrier
14%
Graphene
14%
Desorption
14%
Optical Spectroscopy
14%
Chirality
14%
Optical Anisotropy
14%
Keyphrases
Back-gate
16%
First Goal
16%
Dispersive Phenomena
16%
Carbon Allotropes
16%
Thin Silver Films
16%
Kretschmann
16%
Reflection Configuration
16%
Reflection Conditions
16%