Origin and control of ionic hydration patterns in nanopores

Origin and control of ionic hydration patterns in nanopores

The redistribution of water molecules when an ion passes through a nanopore is known to create complex patterns. Here, an analytical model accurately predicts the patterns when an ion passes through a graphene nanopore, and reveals the physical origins of the patterns.

Bibliographic Details
Main Authors: Miraslau L. Barabash, William A. T. Gibby, Carlo Guardiani, Alex Smolyanitsky, Dmitry G. Luchinsky, Peter V. E. McClintock
Format: Article
Language:English
Published: Nature Publishing Group 2021-06-01
Series:Communications Materials
Online Access:https://doi.org/10.1038/s43246-021-00162-x
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spelling doaj-692ba66626304ac8a71d08e250b51b782021-06-20T11:19:44ZengNature Publishing GroupCommunications Materials2662-44432021-06-01211910.1038/s43246-021-00162-xOrigin and control of ionic hydration patterns in nanoporesMiraslau L. Barabash0William A. T. Gibby1Carlo Guardiani2Alex Smolyanitsky3Dmitry G. Luchinsky4Peter V. E. McClintock5Department of Physics, Lancaster UniversityDepartment of Physics, Lancaster UniversityDepartment of Physics, Lancaster UniversityApplied Chemicals and Materials Division, National Institute of Standards and TechnologyDepartment of Physics, Lancaster UniversityDepartment of Physics, Lancaster UniversityThe redistribution of water molecules when an ion passes through a nanopore is known to create complex patterns. Here, an analytical model accurately predicts the patterns when an ion passes through a graphene nanopore, and reveals the physical origins of the patterns.https://doi.org/10.1038/s43246-021-00162-x
collection DOAJ
language English
format Article
sources DOAJ
author Miraslau L. Barabash
William A. T. Gibby
Carlo Guardiani
Alex Smolyanitsky
Dmitry G. Luchinsky
Peter V. E. McClintock
spellingShingle Miraslau L. Barabash
William A. T. Gibby
Carlo Guardiani
Alex Smolyanitsky
Dmitry G. Luchinsky
Peter V. E. McClintock
Origin and control of ionic hydration patterns in nanopores
Communications Materials
author_facet Miraslau L. Barabash
William A. T. Gibby
Carlo Guardiani
Alex Smolyanitsky
Dmitry G. Luchinsky
Peter V. E. McClintock
author_sort Miraslau L. Barabash
title Origin and control of ionic hydration patterns in nanopores
title_short Origin and control of ionic hydration patterns in nanopores
title_full Origin and control of ionic hydration patterns in nanopores
title_fullStr Origin and control of ionic hydration patterns in nanopores
title_full_unstemmed Origin and control of ionic hydration patterns in nanopores
title_sort origin and control of ionic hydration patterns in nanopores
publisher Nature Publishing Group
series Communications Materials
issn 2662-4443
publishDate 2021-06-01
description The redistribution of water molecules when an ion passes through a nanopore is known to create complex patterns. Here, an analytical model accurately predicts the patterns when an ion passes through a graphene nanopore, and reveals the physical origins of the patterns.
url https://doi.org/10.1038/s43246-021-00162-x
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AT alexsmolyanitsky originandcontrolofionichydrationpatternsinnanopores
AT dmitrygluchinsky originandcontrolofionichydrationpatternsinnanopores
AT petervemcclintock originandcontrolofionichydrationpatternsinnanopores
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