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Controlling of Tunneling Resistance in Carbon Nanofiber Polymer Composites: A Novel Equation for Polymer Tunneling Resistivity by Quantifiable Parameters Publisher



Y Zare Y ; Mr Naqvi Muhammad RAZA ; Ky Rhee Kyong YOP ; S Park SOOJIN
Authors

Source: Journal of Materials Research and Technology Published:2025


Abstract

High polymer tunneling resistivity (ρ) enhances tunneling resistance, thereby restricting electron transferring in nanocomposites; however, ρ remains an ambiguous parameter. In this work, two developed models for electrical conductivity of carbon nanofiber (CNF) polymer samples (PCNFs) are integrated to express ρ by CNF characteristics (concentration, conductivity, percolation threshold, size and waviness), interphase depth, network fraction, and tunneling dimensions (length and diameter). Extensive experimental data are used to validate the models. Furthermore, ρ is calculated for several samples from prior studies. The effects of various factors on ρ are analyzed to confirm the validity of the proposed equation. The resulting patterns elucidate the key parameters governing ρ in PCNFs. A lower percolation threshold, thicker interphase, higher network fraction, greater CNF conductivity, along with shorter and wider tunnels, lead to reduced ρ. The maximum ρ, recorded at 1600 Ω m, occurs at a CNF radius (R) = 100 nm and CNF length (l) = 40 μm, while R < 70 nm or l > 80 μm decreases ρ to 87 Ω m. Thus, thinner or longer nanofibers substantially reduce the ρ improving the charge transferring. © 2025 Elsevier B.V., All rights reserved.
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