Dielectric properties of polymethacrylate-grafted carbon nanotube composites?

RSC Advances Pub Date: 2012-11-15 DOI: 10.1039/C2RA22164K

Abstract

The dielectric properties of a series of multi-walled carbon nanotubes on which poly(cyclohexyl methacrylate)s were densely grafted (PCHMA-CNTs) were systematically characterized over the broad frequency range of 10?2–108 Hz. PCHMA-CNT was used as an ideal polymer/CNT nanocomposite system in which the CNT is homogeneously dispersed and the polymer/CNT interface is strong. When the volume fraction of the CNT ΦCNT < 0.1 PCHMA-CNT exhibited a relatively high dielectric constant εr and a quite low dielectric loss factor ε′′r, while when ΦCNT > 0.1 a very large εr was observed at low frequencies. The Cole–Cole relaxation model was applied to the impedance spectra of PCHMA-CNT in order to investigate the correlation between the tunneling conduction and the very large εr. Also, from thus-obtained relaxation frequencies, the inter-nanotube distance in the PCHMA-CNT system was estimated. As a result, a new mechanism was proposed for the very large εr: the locally enhanced electric field by the tunneling conduction results in the very large εr at the low frequencies along with the increase in ε′′r. Furthermore, the CNT was demonstrated to be five times more effective than barium titanate (BT) for the enhancement in εr of polymer materials because of the higher electric field enhancement effect of the CNT than that of the BT.

Graphical abstract: Dielectric properties of polymethacrylate-grafted carbon nanotube composites
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