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Polymer nanocomposites with metal oxide nanoparticle fillers exhibit enhanced electrical breakdown strength and voltage endurance compared to their unfilled or micron filled counterparts. This paper presents the following hypothesis for the mechanisms leading to improved properties. The inclusion of nanoparticles provides myriad scattering obstacles and trap sites in the charge carriers' paths, effectively...
The intense interest in nanocomposites in the last few years results from the documented enhancements in mechanical, thermal and electrical properties that are possible when particulates of nanometric scale are embedded in a polymer matrix. It has become clear that the primary reason for these improvements is the dominance of the internal interfacial surfaces which characterizes nanodielectrics of...
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