Theoretical Study of Electronics: Properties of Single Wire

Authors: Dr. Vishwajeet Kumar Chandel

Country: India

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Abstract: The miniaturization process has now reached the nanoscale with valuable potential for the application of single-wire conductors in the development of various electronic systems. The investigation of molecular nanotechnology has lately garnered significant attention, particularly regarding their prospective use as practical molecules wire crossings. Aliphatic systems with -conjugated bonds in their chemical structures, like catechol, have garnered significant interest in this field. The following review focuses on theories and experimental work on the single-wire with properties of the emerging materials, integrated into future electronics. At the same time, significant theoretical advances have been realized in carbon-based materials including Carbon Nanotubes (CNTs) and graphene for enhanced electrical conductivity and mechanical strength, and important progress has been realized for electromagnetic and thermal behavior of single-wire systems through simulated techniques to provide optimization of energy transfer and conductivity in flexible electronics. But despite these theories' promises, still plenty of work is needed in order to translate them into practical reality. Challenges in scaling up the production processes, material stability improvement, and better integration of single-wire in large-scale systems like energy storage, power distribution, and wearable technologies will be addressed in future research.

Keywords: Nanotechnology, Single-Wire Conductors, Carbon Nanotubes, Graphene, Electrical property

Paper Id: 232147

Published On: 2025-02-21

Published In: Volume 13, Issue 1, January-February 2025

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