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Charge Transport in Electronic Devices Printed with Inks of Quasi-1D van der Waals Materials

Published 8 Jul 2021 in physics.app-ph and cond-mat.mtrl-sci | (2107.04146v1)

Abstract: We report on fabrication and characterization of electronic devices printed with inks of quasi-1D van der Waals materials. The quasi-1D van der Waals materials are characterized by 1D motifs in their crystal structure, which allows for their exfoliation into bundles of atomic chains. The ink was prepared by the liquid-phase exfoliation of crystals of TiS3 semiconductor into quasi-1D nanoribbons dispersed in a mixture of ethanol and ethylene glycol. The temperature dependent electrical measurements indicate that electron transport in the printed devices is dominated by the electron hopping mechanisms. The low-frequency electronic noise in the printed devices is of 1/f type near room temperature (f is the frequency). The abrupt changes in the temperature dependence of the noise spectral density and the spectrum itself can be indicative of the phase transition in individual TiS3 nanoribbons as well as modifications in the hopping transport regime. The obtained results attest to the potential of quasi-1D van der Waals materials for applications in printed electronics.

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