Unprecedented generation of 3D heterostructures by mechanochemical disassembly and re-ordering of incommensurate metal chalcogenides

Unprecedented generation of 3D heterostructures by mechanochemical disassembly and re-ordering of incommensurate metal chalcogenides

3D heterostructures offer properties that are inaccessible in bulk single-phase solids, but synthetic approaches are limited. The authors use mechanochemical reshuffling of binary precursors and subsequent annealing to design structurally aligned misfit heterostructures with well-defined atomic arra...

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Main Authors: Oleksandr Dolotko, Ihor Z. Hlova, Arjun K. Pathak, Yaroslav Mudryk, Vitalij K. Pecharsky, Prashant Singh, Duane D. Johnson, Brett W. Boote, Jingzhe Li, Emily A. Smith, Scott L. Carnahan, Aaron J. Rossini, Lin Zhou, Ely M. Eastman, Viktor P. Balema
Format: Article
Language:English
Published: Nature Publishing Group 2020-06-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-020-16672-0
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spelling doaj-a0eb3d35fd2b4023a870f889d86ef5b82021-06-13T11:18:38ZengNature Publishing GroupNature Communications2041-17232020-06-0111111010.1038/s41467-020-16672-0Unprecedented generation of 3D heterostructures by mechanochemical disassembly and re-ordering of incommensurate metal chalcogenidesOleksandr Dolotko0Ihor Z. Hlova1Arjun K. Pathak2Yaroslav Mudryk3Vitalij K. Pecharsky4Prashant Singh5Duane D. Johnson6Brett W. Boote7Jingzhe Li8Emily A. Smith9Scott L. Carnahan10Aaron J. Rossini11Lin Zhou12Ely M. Eastman13Viktor P. Balema14Ames Laboratory of US Department of Energy, Iowa State UniversityAmes Laboratory of US Department of Energy, Iowa State UniversityAmes Laboratory of US Department of Energy, Iowa State UniversityAmes Laboratory of US Department of Energy, Iowa State UniversityAmes Laboratory of US Department of Energy, Iowa State UniversityAmes Laboratory of US Department of Energy, Iowa State UniversityAmes Laboratory of US Department of Energy, Iowa State UniversityAmes Laboratory of US Department of Energy, Iowa State UniversityAmes Laboratory of US Department of Energy, Iowa State UniversityAmes Laboratory of US Department of Energy, Iowa State UniversityDepartment of Chemistry, Iowa State UniversityDepartment of Chemistry, Iowa State UniversityAmes Laboratory of US Department of Energy, Iowa State UniversityAmes Laboratory of US Department of Energy, Iowa State UniversityAmes Laboratory of US Department of Energy, Iowa State University3D heterostructures offer properties that are inaccessible in bulk single-phase solids, but synthetic approaches are limited. The authors use mechanochemical reshuffling of binary precursors and subsequent annealing to design structurally aligned misfit heterostructures with well-defined atomic arrangements.https://doi.org/10.1038/s41467-020-16672-0
collection DOAJ
language English
format Article
sources DOAJ
author Oleksandr Dolotko
Ihor Z. Hlova
Arjun K. Pathak
Yaroslav Mudryk
Vitalij K. Pecharsky
Prashant Singh
Duane D. Johnson
Brett W. Boote
Jingzhe Li
Emily A. Smith
Scott L. Carnahan
Aaron J. Rossini
Lin Zhou
Ely M. Eastman
Viktor P. Balema
spellingShingle Oleksandr Dolotko
Ihor Z. Hlova
Arjun K. Pathak
Yaroslav Mudryk
Vitalij K. Pecharsky
Prashant Singh
Duane D. Johnson
Brett W. Boote
Jingzhe Li
Emily A. Smith
Scott L. Carnahan
Aaron J. Rossini
Lin Zhou
Ely M. Eastman
Viktor P. Balema
Unprecedented generation of 3D heterostructures by mechanochemical disassembly and re-ordering of incommensurate metal chalcogenides
Nature Communications
author_facet Oleksandr Dolotko
Ihor Z. Hlova
Arjun K. Pathak
Yaroslav Mudryk
Vitalij K. Pecharsky
Prashant Singh
Duane D. Johnson
Brett W. Boote
Jingzhe Li
Emily A. Smith
Scott L. Carnahan
Aaron J. Rossini
Lin Zhou
Ely M. Eastman
Viktor P. Balema
author_sort Oleksandr Dolotko
title Unprecedented generation of 3D heterostructures by mechanochemical disassembly and re-ordering of incommensurate metal chalcogenides
title_short Unprecedented generation of 3D heterostructures by mechanochemical disassembly and re-ordering of incommensurate metal chalcogenides
title_full Unprecedented generation of 3D heterostructures by mechanochemical disassembly and re-ordering of incommensurate metal chalcogenides
title_fullStr Unprecedented generation of 3D heterostructures by mechanochemical disassembly and re-ordering of incommensurate metal chalcogenides
title_full_unstemmed Unprecedented generation of 3D heterostructures by mechanochemical disassembly and re-ordering of incommensurate metal chalcogenides
title_sort unprecedented generation of 3d heterostructures by mechanochemical disassembly and re-ordering of incommensurate metal chalcogenides
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2020-06-01
description 3D heterostructures offer properties that are inaccessible in bulk single-phase solids, but synthetic approaches are limited. The authors use mechanochemical reshuffling of binary precursors and subsequent annealing to design structurally aligned misfit heterostructures with well-defined atomic arrangements.
url https://doi.org/10.1038/s41467-020-16672-0
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