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Chemical oxidation of polyacetylene by cupric chloride
Jan-Erik Österholm
, Heikki Isotalo
, Henrik Stubb
VTT Technical Research Centre of Finland
Neste Oyj
VTT (former employee or external)
Research output
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peer-review
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Keyphrases
Activation Energy
33%
Anions
33%
Charge Transfer Complex
33%
Chemical Oxidation
100%
Copper Chloride
100%
Cupric Chloride
100%
Dopant
33%
Doped Films
33%
Doping Concentration
33%
Highly Conducting
33%
Highly Doped
33%
IR Absorption
33%
Lightly Doped
33%
Partial Reduction
33%
Polyacetylene
100%
INIS
absorption
20%
activation energy
20%
anions
20%
charges
20%
chlorides
100%
concentration
20%
copper chlorides
20%
doped materials
100%
films
20%
increasing
20%
oxidation
100%
polyacetylenes
100%
range
20%
reduction
20%
Chemistry
Charge Transfer Complex
50%
Doping
50%
Doping Material
100%
IR Absorption
50%
Polyacetylene Polymer
100%
Reaction Activation Energy
50%
Material Science
Activation Energy
50%
Doping (Additives)
100%
Film
50%
Polyacetylene
100%