Type:

A rotary nano ion pump: A molecular dynamics study

Journal: Journal Of Molecular Modeling (16102940)Year: September 2012Volume: 18Issue: Pages: 4191 - 4197

a :University of Isfahan - IRAN(IR) - Isfahan

DOI:10.1007/s00894-012-1403-6Language: English

Abstract

The dynamics of a rotary nano ion pump, inspired by the F0 part of the F0F1-ATP synthase biomolecular motor, were investigated. This nanopump is composed of a rotor, which is constructed of two carbon nanotubes with benzene rings, and a stator, which is made of six graphene sheets. The molecular dynamics (MD) method was used to simulate the dynamics of the ion nanopump. When the rotor of the nanopump rotates mechanically, an ion gradient will be generated between the two sides of the nanopump. It is shown that the ion gradient generated by the nanopump is dependant on parameters such as the rotary frequency of the rotor, temperature and the amounts and locations of the positive and negative charges of the stator part of the nanopump. Also, an electrical potential difference is generated between the two sides of the pump as a result of its operation. © Springer-Verlag 2012.

Author Keywords

F0-like motorIon gradientMolecular dynamicsNanopump

Other Keywords

ElectricityIon PumpsMolecular Dynamics SimulationNanoparticlesRotationTemperatureTime Factorsbenzenecarbon nanotubegrapheneanalytic methodarticlechemical structurecomputational fluid dynamicselectric potentialmechanicsmolecular dynamicspriority journalrotary nano ion pumptemperature dependence