Title :
Temperature dependence of non-linear electrical conduction behavior in a screen-printed multi-component nanocomposite
Author :
Webb, Alexander J. ; Bloor, David ; Szablewski, Marek ; Atkinson, David
Author_Institution :
Dept. of Phys., Durham Univ., Durham, UK
Abstract :
Nanocomposite materials are of growing applications importance in many areas, particularly touch sensitive surfaces. Here, current-voltage measurements were performed over a range of temperatures and static compressive loadings on a new variant of a multi-component, screen-printed nanocomposite ink, in order to understand the physical nature of the electrical transport behavior. A physical model, combining a linear percolative electrical conductance and a highly non-linear conductance, that is ascribed to field assisted quantum tunneling, was successful in describing the temperature dependence of the I-V. This provides a theoretical underpinning for conduction in these functional nanocomposites.
Keywords :
compressive strength; compressive testing; electrical conductivity; ink; nanocomposites; tunnelling; I-V temperature dependence; current-voltage measurements; electrical transport behavior; field assisted quantum tunneling; linear percolative electrical conductance; multicomponent nanocomposite ink; nonlinear electrical conduction behavior; physical model; screen-printed multicomponent nanocomposite; screen-printed nanocomposite ink; static compressive loadings; theoretical underpinning; touch sensitive surfaces; Loading; Materials; Resistance; Temperature dependence; Temperature distribution; Temperature measurement; Tunneling;
Conference_Titel :
Nanotechnology (IEEE-NANO), 2013 13th IEEE Conference on
Conference_Location :
Beijing
Print_ISBN :
978-1-4799-0675-8
DOI :
10.1109/NANO.2013.6720833
