A coupled effect of dehydration and electrostatic interactions on selective ion transport through charged nanochannels

Wang Mao; Shen Wenhao; Ding SiyuanWang XueWang ZhongWang YugangLiu Feng

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A coupled effect of dehydration and electrostatic interactions on selective ion transport through charged nanochannels

机译：脱水和静电耦合的影响交互在选择性离子运输带电纳米通道

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Selective ion transport is an essential feature of biological ion channels. Due to the subnanometer size and negatively charged surface of ion channels, the ion selectivity is affected by both dehydration effects and electrostatic interactions. Their coupled effect on selective ion transport, however, has been elusive. Here, using molecular dynamics simulations, we study ion (Li+ and Mg2+) transport through subnanometer carbon nanotubes (CNTs) with varying charge densities. Our results indicate that the dehydration effect governs the ionic transport at low surface charge densities, hence the nanochannel shows a selectivity for Li+ ions. In contrast, the nanochannel switches to a selectivity for Mg2+ ions as the electrostatic interaction between the cations and the negatively charged wall dominates the transport at high surface charge densities.

机译：选择性离子传输的基本特征生物离子通道。尺寸和表面带负电荷的离子渠道,离子选择性的影响脱水效果和静电交互。然而,离子运输一直难以捉摸。使用分子动力学模拟,我们研究离子(李+和Mg2 +)通过subnanometer运输碳纳米管有不同密度。脱水效果控制离子运输表面电荷密度低,因此纳米通道显示了李+离子的选择性。相比,纳米通道开关选择性Mg2 +离子静电阳离子和之间的交互带负电荷的墙主导交通工具在高表面电荷密度。

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来源
《Nanoscale》 |2018年第39期|18821-18828|共8页
作者
Wang Mao; Shen Wenhao; Ding SiyuanWang XueWang ZhongWang YugangLiu Feng;
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作者单位

Peking Univ, Sch Phys, State Key Lab Nucl Phys & Technol, Beijing 100871, Peoples R China;

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原文格式 PDF
正文语种英语
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关键词
Ion Channels; Ions; Charge densityNanochannelSurface chargesurface charge densitytransportION SELECTIVITYnegative chargeion transportelectrostatic interactions;

机译：离子通道,离子;densityNanochannelSurface收费chargesurface densitytransportION收费SELECTIVITYnegative chargeiontransportelectrostatic交互;
入库时间 2024-01-25 20:35:45

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A coupled effect of dehydration and electrostatic interactions on selective ion transport through charged nanochannels

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