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Plasma chemistry and growth of nanosized particles in a C
2
H
2
RF discharge
S. Stoykov, C. Eggs,
U. Kortshagen
Mechanical Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
121
Scopus citations
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Dive into the research topics of 'Plasma chemistry and growth of nanosized particles in a C
2
H
2
RF discharge'. Together they form a unique fingerprint.
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Keyphrases
Acetylene
100%
Nanosized Particles
100%
RF Discharge
100%
Plasma Growth
100%
Plasma Chemistry
100%
Room Temperature
50%
Chemical Reaction Rate
50%
H-abstraction
50%
Low Pressure
50%
Negative Ions
50%
Aromatic Compounds
50%
NMR Measurements
50%
Positive Ions
50%
Ion-ion
50%
Species Concentration
50%
Electron Attachment
50%
Aromatic Hydrocarbons
50%
Gas Temperature
50%
Species Evolution
50%
FTIR Measurements
50%
Gas-phase Chemistry
50%
Diffusion Loss
50%
Neutral-neutral Reactions
50%
Hydrocarbon Ions
50%
Cyclic Hydrocarbons
50%
Chemical Clustering
50%
Linear Molecule
50%
Reactor Wall
50%
Electron Induced
50%
Chemistry
Chemistry
100%
NMR Spectroscopy
50%
Ambient Reaction Temperature
50%
Fourier Transform Infrared Spectroscopy
50%
Arene
50%
Positive Ion
50%
Negative Ion
50%
Aromatic Compound
50%
Electron Attachment
50%
Cyclic Hydrocarbon
50%
formation
50%
Chemical Engineering
Aromatic Hydrocarbon
100%
Aromatic Compound
100%
Material Science
Nuclear Magnetic Resonance
100%