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Nuclear magnetic resonance study of fullerene-like WS
2
A. M. Panich
, F. Kopnov, R. Tenne
Department of Physics
Research output
:
Contribution to journal
›
Article
›
peer-review
6
Scopus citations
Overview
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2
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Keyphrases
Nanoparticles
100%
Nuclear Magnetic Resonance
100%
Fullerene-like
100%
Magnetic Resonance Techniques
100%
WS 2
100%
Inorganic Fullerene-like
50%
Absorbed Water
33%
Water Molecule
16%
Vacuum Annealing
16%
Substantial Reduction
16%
Nanopore
16%
Hydrogen Sulfide
16%
Hydrogen Molecule
16%
Molecular Hydrogen
16%
1H nuclear Magnetic Resonance (1H NMR)
16%
Synthesized Nanoparticles
16%
Agglomerates
16%
Tungsten Oxide
16%
2-structure
16%
Strain Release
16%
Material Science
Nanoparticle
100%
Fullerene
100%
Nuclear Magnetic Resonance
100%
Annealing
14%
Powder
14%
Oxide Compound
14%
Nanopore
14%
Tungsten
14%
Chemical Engineering
Nanoparticle
100%
Fullerene
100%
Hydrogen Sulfide
14%