Transporting an ionic-liquid/water mixture in a conical nanochannel: A nanofluidic memristor

Qian Sheng; Yanbo Xie; Jun Li; Xinwei Wang; Jianming Xue

doi:10.1039/c7cc01047h

Transporting an ionic-liquid/water mixture in a conical nanochannel: A nanofluidic memristor

Qian Sheng, Yanbo Xie, Jun Li, Xinwei Wang, Jianming Xue

School of Aeronautics

Research output: Contribution to journal › Article › peer-review

86 Scopus citations

Abstract

Synthetic conical nanochannels have gained attention for their ion rectification behavior, which can be used to mimic the functionalities of biological ion channels. Employing these nanochannels and inspired by biological synaptic dynamics, we herein demonstrate a new nanofluidic device as a memristor, the ion transport conductance of which depends on the history of its ion flow. The nanofluidic memristors show excellent repeatability, high ON/OFF ratios, and sufficiently long retention times, which are highly desirable for logic control and neuromorphic engineering applications in nanofluidic systems as well as for fundamental transport studies of ionic liquids on a nanoscale.

Original language	English
Pages (from-to)	6125-6127
Number of pages	3
Journal	Chemical Communications
Volume	53
Issue number	45
DOIs	https://doi.org/10.1039/c7cc01047h
State	Published - 2017

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title = "Transporting an ionic-liquid/water mixture in a conical nanochannel: A nanofluidic memristor",

abstract = "Synthetic conical nanochannels have gained attention for their ion rectification behavior, which can be used to mimic the functionalities of biological ion channels. Employing these nanochannels and inspired by biological synaptic dynamics, we herein demonstrate a new nanofluidic device as a memristor, the ion transport conductance of which depends on the history of its ion flow. The nanofluidic memristors show excellent repeatability, high ON/OFF ratios, and sufficiently long retention times, which are highly desirable for logic control and neuromorphic engineering applications in nanofluidic systems as well as for fundamental transport studies of ionic liquids on a nanoscale.",

author = "Qian Sheng and Yanbo Xie and Jun Li and Xinwei Wang and Jianming Xue",

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doi = "10.1039/c7cc01047h",

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T1 - Transporting an ionic-liquid/water mixture in a conical nanochannel

T2 - A nanofluidic memristor

AU - Sheng, Qian

AU - Xie, Yanbo

AU - Li, Jun

AU - Wang, Xinwei

AU - Xue, Jianming

PY - 2017

Y1 - 2017

N2 - Synthetic conical nanochannels have gained attention for their ion rectification behavior, which can be used to mimic the functionalities of biological ion channels. Employing these nanochannels and inspired by biological synaptic dynamics, we herein demonstrate a new nanofluidic device as a memristor, the ion transport conductance of which depends on the history of its ion flow. The nanofluidic memristors show excellent repeatability, high ON/OFF ratios, and sufficiently long retention times, which are highly desirable for logic control and neuromorphic engineering applications in nanofluidic systems as well as for fundamental transport studies of ionic liquids on a nanoscale.

AB - Synthetic conical nanochannels have gained attention for their ion rectification behavior, which can be used to mimic the functionalities of biological ion channels. Employing these nanochannels and inspired by biological synaptic dynamics, we herein demonstrate a new nanofluidic device as a memristor, the ion transport conductance of which depends on the history of its ion flow. The nanofluidic memristors show excellent repeatability, high ON/OFF ratios, and sufficiently long retention times, which are highly desirable for logic control and neuromorphic engineering applications in nanofluidic systems as well as for fundamental transport studies of ionic liquids on a nanoscale.

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U2 - 10.1039/c7cc01047h

DO - 10.1039/c7cc01047h

M3 - 文章

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AN - SCOPUS:85021708137

SN - 1359-7345

VL - 53

SP - 6125

EP - 6127

JO - Chemical Communications

JF - Chemical Communications

IS - 45

ER -

Transporting an ionic-liquid/water mixture in a conical nanochannel: A nanofluidic memristor

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