I-V fluctuation of benzene molecule as P-type or N-type active element

Jayanta Choudhury; Gholam H. Massiha

doi:10.1117/12.608946

23 May 2005 I-V fluctuation of benzene molecule as P-type or N-type active element

Proceedings Volume 5846, Noise and Information in Nanoelectronics, Sensors, and Standards III; (2005) https://doi.org/10.1117/12.608946
Event: SPIE Third International Symposium on Fluctuations and Noise, 2005, Austin, Texas, United States

Abstract

In this paper the energy of an electron excited in conduction state in benzene (C₆H₆) molecule is estimated. The possible energy of the excited electron depends on the eigen energy state of the excited electron. Estimation of energy of an electron excited in conduction in C₆H₆ molecule is necessary to analyze fluctuation in currents in benzene molecule. Stable current-voltage (I-V) behavior of benzene molecule ensures functionality of any nano device involving benzene molecule or its derivative. This theoretical work can be verified by experiment of radiation from an excited benzene molecule. The result will give precise idea about the energy needed to destabilize the electrical behavior of devices made of benzene molecules. Benzene molecule is interseting for its potential in molecular nano electronics. The hexagonal core plane of the benzene molecule is relatively unalterable compared to the π localized electrons. Disturbance in the π-electron cloud will cause creation of hole by exciting a π electron to jump for conduction or may push an excited electron in the π electron cloud. The analysis of these effects rely on estimates of the energy imbalance due to presence of excited charged particles. This work is a beginning step in this front. The knowledge can be used to engineer improved switching mechanism using benzene molecule as an electronic device.

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Jayanta Choudhury and Gholam H. Massiha "I-V fluctuation of benzene molecule as P-type or N-type active element", Proc. SPIE 5846, Noise and Information in Nanoelectronics, Sensors, and Standards III, (23 May 2005); https://doi.org/10.1117/12.608946

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KEYWORDS

Molecules

Molecular electronics

Chlorine

Clouds

Nanoelectronics

Particles

Electronic components

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