Rotational viscosity of a liquid crystal mixture: a fully atomistic molecular dynamics study

doi:10.1088/1674-1056/18/10/047

Abstract

Abstract Fully atomistic molecular dynamics (MD) simulations at 293, 303 and 313 K have been performed for the four-component liquid crystal mixture, E7, using the software package Material Studio. Order parameters and orientational time correlation functions (TCFs) were calculated from MD trajectories. The rotational viscosity coefficients (RVCs) of the mixture were calculated using the Nemtsov--Zakharov and Fialkowski methods based on statistical-mechanical approaches. Temperature dependences of RVC and density were discussed in detail. Reasonable agreement between the simulated and experimental values was found.

Keywords: rotational viscosity molecular dynamic simulation nematic liquid crystal mixture

Received: 18 March 2009
Revised: 27 May 2009
Accepted manuscript online:

PACS:	66.20.-d	(Viscosity of liquids; diffusive momentum transport)
	61.20.Ja	(Computer simulation of liquid structure)
	61.30.Cz	(Molecular and microscopic models and theories of liquid crystal structure)
	61.30.Gd	(Orientational order of liquid crystals; electric and magnetic field effects on order)
	64.75.-g	(Phase equilibria)

Fund: Project supported by the National Natural Science Foundation of China (Grant Nos 60578035 and 60736042).

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Zhang Ran(张然), Peng Zeng-Hui(彭增辉), Liu Yong-Gang(刘永刚), Zheng Zhi-Gang(郑致刚), and Xuan Li(宣丽) Rotational viscosity of a liquid crystal mixture: a fully atomistic molecular dynamics study 2009 Chin. Phys. B 18 4380

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Rotational viscosity of a liquid crystal mixture: a fully atomistic molecular dynamics study

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