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Monte Carlo simulation of temperature effect on the electron mobility and diffusion coefficient in fullerene-C60 bulk organic semiconductor

In order to understand the charge-carrier transport properties in organic semiconductors we need both the micro- and macroscopic views, and the model combines these views. In general, the mobility is one of the importance factors that determine the charge-carrier transport properties and the materia...

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Published in:	Microelectronic engineering 2017-10, Vol.182, p.57-60
Main Authors:	Berkai, Zakarya, Daoudi, Mebarka, Mendil, Nesrin, Belghachi, Abderrahmane
Format:	Article
Language:	English
Subjects:	Buckminsterfullerene Carrier transport Charge transport Computer simulation Current carriers Diffusion Diffusion coefficient Electron mobility Electrons Energetic disorder Fullerene-C60 Fullerenes Mathematical analysis Miller - Abrahams rate Monte Carlo simulation Organic semiconductor Organic semiconductors Semiconductors Temperature effects Transport properties
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description	In order to understand the charge-carrier transport properties in organic semiconductors we need both the micro- and macroscopic views, and the model combines these views. In general, the mobility is one of the importance factors that determine the charge-carrier transport properties and the material necessity for electronic applications. In this context, the calculation of this factor is important to generate a realistic representation of the atoms position in the molecules of the organic semiconductors. In this work, we have studied the temperature effect on the electron mobility and the diffusion coefficient of Fullerene (C60) organic semiconductor using Monte Carlo simulation which allows us to make educated in different situations. The electron mobility in a simple cubic C60 structure is in the range of 1.5×10−3–7×10−3cm2/V·s and in the face-centered cubic C60 structure is between 1.9×10−2–2.5×10−2cm2/V·s. These results are validated through a comparison in excellent agreement with results extracted from literature (Volpi et al., 2016; Fishchuk et al., 2010 [24, 25]). [Display omitted] •The Fullerene C60 organic semiconductor is most important material has a good mobility.•The mobility is one of the importance factors that determine the charge-carrier transport properties and the material necessity for electronic applications.•The Monte Carlo simulation used all factors impact the mobility like the temperature, electric field and sample length etc.
doi_str_mv	10.1016/j.mee.2017.09.003
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subjects	Buckminsterfullerene Carrier transport Charge transport Computer simulation Current carriers Diffusion Diffusion coefficient Electron mobility Electrons Energetic disorder Fullerene-C60 Fullerenes Mathematical analysis Miller - Abrahams rate Monte Carlo simulation Organic semiconductor Organic semiconductors Semiconductors Temperature effects Transport properties
title	Monte Carlo simulation of temperature effect on the electron mobility and diffusion coefficient in fullerene-C60 bulk organic semiconductor
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