Evolution and evaluation of the polymer/nanotube composite

Evolution and evaluation of the polymer/nanotube composite

Composite structures, using MWNT and SWNT and the polymer (PmPV) exhibit properties which enhance those of the individual components. The polymer PmPV can act as an organic filter for the multiwalled system where the MWNT are indefinitely suspended in the polymer solution while the carbonaceous mate...

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Veröffentlicht in:Synthetic metals 1999-06, Vol.103 (1), p.2559-2562
Hauptverfasser: Curran, S., Davey, A.P., Coleman, J., Dalton, A., McCarthy, B., Maier, S., Drury, A., Gray, D., Brennan, M., Ryder, K., de la Chapelle, M. Lamy, Journet, C., Bernier, P., Byrne, H.J., Carroll, D., Ajayan, P.M., Lefrant, S., Blau, W.
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Carbon Nanotubes
Composites
Condensed Matter
Exact sciences and technology
Forms of application and semi-finished materials
Luminescence and Roman spectroscopy
Materials Science
nonlinear optics
Physics
Poly(phenylene vinylene) and derivatives
Polymer industry, paints, wood
Technology of polymers
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Zusammenfassung:Composite structures, using MWNT and SWNT and the polymer (PmPV) exhibit properties which enhance those of the individual components. The polymer PmPV can act as an organic filter for the multiwalled system where the MWNT are indefinitely suspended in the polymer solution while the carbonaceous material falls out of solution. Raman measurements of this show a complete reduction of the amorphous line at 1350 cm-1. We see that we can alter the luminescence quantum yield of the composite, where the effects are different depending on which nanotubes are used. When we examine the SWNT/PmPV the quantum yield is increased. The MWNT composite also shows strong non-linear optical signal. The pristine polymer has an χ (3) of 10 −11 esu whereas the composite χ (3) is -10 −10 esu.
ISSN:0379-6779
1879-3290
DOI:10.1016/S0379-6779(98)00279-3