1. Carbon nanotube induced structural and physical property transitions of syndiotactic polypropylene.
- Author
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Giuliana Gorrasi, Valentina Romeo, Diana Sannino, Maria Sarno, Paolo Ciambelli, Vittoria Vittoria, Biagio De Vivo, and Vincenzo Tucci
- Subjects
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POLYPROPYLENE , *CARBON nanotubes , *CRYSTALLIZATION , *ELECTRIC conductivity - Abstract
In this paper we have studied the effect of increasing carbon multi-walled nanotube (CNT) concentration in composites of syndiotactic polypropylene (sPP) having the same crystalline form but different morphologies. The attention was focused on the form I of sPP with different degrees of perfection (in terms of percentages of chains in helical conformation, crystal dimensions and crystallinity) obtained using two different quenching temperatures from the melt, i.e. 25 and 100?°C. We observed a decreasing effect of the crystallization temperature on increasing the nanotube content up to the samples with 10% of CNT, that show a very similar structural organization independent of the undercooling. Only the amorphous phase turns out more relaxed in the samples crystallized at the highest temperature. Either the thermal or the mechanical properties are improved on increasing the CNT content in both series of samples. The electrical conductivity increases in a similar manner in both series of samples and between 1 and 3 wt% it shows a sizable step of about eight orders of magnitude, a phenomenon that can be regarded as the onset of a percolating structure for which charge transport may take place. [ABSTRACT FROM AUTHOR]
- Published
- 2007
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