Interface strain in vertically stacked two-dimensional heterostructured carbon-MoS2 nanosheets controls electrochemical reactivity

Interface strain in vertically stacked two-dimensional heterostructured carbon-MoS2 nanosheets controls electrochemical reactivity

Two-dimensional materials are promising for electrochemical energy storage, conversion, catalysis, and sensing. Here the authors leverage strain engineering using a two-dimensional stacked carbon-MoS2 material to control chemical storage pathways in MoS2upon lithium metal insertion.

Bibliographic Details
Main Authors: Landon Oakes, Rachel Carter, Trevor Hanken, Adam P. Cohn, Keith Share, Benjamin Schmidt, Cary L. Pint
Format: Article
Language:English
Published: Nature Publishing Group 2016-06-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/ncomms11796
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spelling doaj-c6d01374498f43fbb28f2f1dcd96fccd2021-05-11T10:58:47ZengNature Publishing GroupNature Communications2041-17232016-06-01711710.1038/ncomms11796Interface strain in vertically stacked two-dimensional heterostructured carbon-MoS2 nanosheets controls electrochemical reactivityLandon Oakes0Rachel Carter1Trevor Hanken2Adam P. Cohn3Keith Share4Benjamin Schmidt5Cary L. Pint6Department of Mechanical Engineering, Vanderbilt UniversityDepartment of Mechanical Engineering, Vanderbilt UniversityDepartment of Mechanical Engineering, Vanderbilt UniversityDepartment of Mechanical Engineering, Vanderbilt UniversityDepartment of Mechanical Engineering, Vanderbilt UniversityVanderbilt Institute of Nanoscale Science and Engineering, Vanderbilt UniversityDepartment of Mechanical Engineering, Vanderbilt UniversityTwo-dimensional materials are promising for electrochemical energy storage, conversion, catalysis, and sensing. Here the authors leverage strain engineering using a two-dimensional stacked carbon-MoS2 material to control chemical storage pathways in MoS2upon lithium metal insertion.https://doi.org/10.1038/ncomms11796
collection DOAJ
language English
format Article
sources DOAJ
author Landon Oakes
Rachel Carter
Trevor Hanken
Adam P. Cohn
Keith Share
Benjamin Schmidt
Cary L. Pint
spellingShingle Landon Oakes
Rachel Carter
Trevor Hanken
Adam P. Cohn
Keith Share
Benjamin Schmidt
Cary L. Pint
Interface strain in vertically stacked two-dimensional heterostructured carbon-MoS2 nanosheets controls electrochemical reactivity
Nature Communications
author_facet Landon Oakes
Rachel Carter
Trevor Hanken
Adam P. Cohn
Keith Share
Benjamin Schmidt
Cary L. Pint
author_sort Landon Oakes
title Interface strain in vertically stacked two-dimensional heterostructured carbon-MoS2 nanosheets controls electrochemical reactivity
title_short Interface strain in vertically stacked two-dimensional heterostructured carbon-MoS2 nanosheets controls electrochemical reactivity
title_full Interface strain in vertically stacked two-dimensional heterostructured carbon-MoS2 nanosheets controls electrochemical reactivity
title_fullStr Interface strain in vertically stacked two-dimensional heterostructured carbon-MoS2 nanosheets controls electrochemical reactivity
title_full_unstemmed Interface strain in vertically stacked two-dimensional heterostructured carbon-MoS2 nanosheets controls electrochemical reactivity
title_sort interface strain in vertically stacked two-dimensional heterostructured carbon-mos2 nanosheets controls electrochemical reactivity
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2016-06-01
description Two-dimensional materials are promising for electrochemical energy storage, conversion, catalysis, and sensing. Here the authors leverage strain engineering using a two-dimensional stacked carbon-MoS2 material to control chemical storage pathways in MoS2upon lithium metal insertion.
url https://doi.org/10.1038/ncomms11796
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AT rachelcarter interfacestraininverticallystackedtwodimensionalheterostructuredcarbonmos2nanosheetscontrolselectrochemicalreactivity
AT trevorhanken interfacestraininverticallystackedtwodimensionalheterostructuredcarbonmos2nanosheetscontrolselectrochemicalreactivity
AT adampcohn interfacestraininverticallystackedtwodimensionalheterostructuredcarbonmos2nanosheetscontrolselectrochemicalreactivity
AT keithshare interfacestraininverticallystackedtwodimensionalheterostructuredcarbonmos2nanosheetscontrolselectrochemicalreactivity
AT benjaminschmidt interfacestraininverticallystackedtwodimensionalheterostructuredcarbonmos2nanosheetscontrolselectrochemicalreactivity
AT carylpint interfacestraininverticallystackedtwodimensionalheterostructuredcarbonmos2nanosheetscontrolselectrochemicalreactivity
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