The potential of chemical bonding to design crystallization and vitrification kinetics

The potential of chemical bonding to design crystallization and vitrification kinetics

Tailoring the crystallization kinetics of materials is important for targeting applications. Here the authors observe a remarkable dependence of crystallization and vitrification kinetics and attribute it to systematic bonding changes for a class of materials between metallic and covalent bonding.

Guardado en:
Detalles Bibliográficos
Autores principales: Christoph Persch, Maximilian J. Müller, Aakash Yadav, Julian Pries, Natalie Honné, Peter Kerres, Shuai Wei, Hajime Tanaka, Paolo Fantini, Enrico Varesi, Fabio Pellizzer, Matthias Wuttig
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2021
Materias:
Science
Q
Acceso en línea:https://doaj.org/article/60198df77ad34ef4abda299e69de934c
Etiquetas: Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
id oai:doaj.org-article:60198df77ad34ef4abda299e69de934c
record_format dspace
spelling oai:doaj.org-article:60198df77ad34ef4abda299e69de934c2021-12-02T16:45:42ZThe potential of chemical bonding to design crystallization and vitrification kinetics10.1038/s41467-021-25258-32041-1723https://doaj.org/article/60198df77ad34ef4abda299e69de934c2021-08-01T00:00:00Zhttps://doi.org/10.1038/s41467-021-25258-3https://doaj.org/toc/2041-1723Tailoring the crystallization kinetics of materials is important for targeting applications. Here the authors observe a remarkable dependence of crystallization and vitrification kinetics and attribute it to systematic bonding changes for a class of materials between metallic and covalent bonding.Christoph PerschMaximilian J. MüllerAakash YadavJulian PriesNatalie HonnéPeter KerresShuai WeiHajime TanakaPaolo FantiniEnrico VaresiFabio PellizzerMatthias WuttigNature PortfolioarticleScienceQENNature Communications, Vol 12, Iss 1, Pp 1-8 (2021)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Christoph Persch
Maximilian J. Müller
Aakash Yadav
Julian Pries
Natalie Honné
Peter Kerres
Shuai Wei
Hajime Tanaka
Paolo Fantini
Enrico Varesi
Fabio Pellizzer
Matthias Wuttig
The potential of chemical bonding to design crystallization and vitrification kinetics
description Tailoring the crystallization kinetics of materials is important for targeting applications. Here the authors observe a remarkable dependence of crystallization and vitrification kinetics and attribute it to systematic bonding changes for a class of materials between metallic and covalent bonding.
format article
author Christoph Persch
Maximilian J. Müller
Aakash Yadav
Julian Pries
Natalie Honné
Peter Kerres
Shuai Wei
Hajime Tanaka
Paolo Fantini
Enrico Varesi
Fabio Pellizzer
Matthias Wuttig
author_facet Christoph Persch
Maximilian J. Müller
Aakash Yadav
Julian Pries
Natalie Honné
Peter Kerres
Shuai Wei
Hajime Tanaka
Paolo Fantini
Enrico Varesi
Fabio Pellizzer
Matthias Wuttig
author_sort Christoph Persch
title The potential of chemical bonding to design crystallization and vitrification kinetics
title_short The potential of chemical bonding to design crystallization and vitrification kinetics
title_full The potential of chemical bonding to design crystallization and vitrification kinetics
title_fullStr The potential of chemical bonding to design crystallization and vitrification kinetics
title_full_unstemmed The potential of chemical bonding to design crystallization and vitrification kinetics
title_sort potential of chemical bonding to design crystallization and vitrification kinetics
publisher Nature Portfolio
publishDate 2021
url https://doaj.org/article/60198df77ad34ef4abda299e69de934c
work_keys_str_mv AT christophpersch thepotentialofchemicalbondingtodesigncrystallizationandvitrificationkinetics
AT maximilianjmuller thepotentialofchemicalbondingtodesigncrystallizationandvitrificationkinetics
AT aakashyadav thepotentialofchemicalbondingtodesigncrystallizationandvitrificationkinetics
AT julianpries thepotentialofchemicalbondingtodesigncrystallizationandvitrificationkinetics
AT nataliehonne thepotentialofchemicalbondingtodesigncrystallizationandvitrificationkinetics
AT peterkerres thepotentialofchemicalbondingtodesigncrystallizationandvitrificationkinetics
AT shuaiwei thepotentialofchemicalbondingtodesigncrystallizationandvitrificationkinetics
AT hajimetanaka thepotentialofchemicalbondingtodesigncrystallizationandvitrificationkinetics
AT paolofantini thepotentialofchemicalbondingtodesigncrystallizationandvitrificationkinetics
AT enricovaresi thepotentialofchemicalbondingtodesigncrystallizationandvitrificationkinetics
AT fabiopellizzer thepotentialofchemicalbondingtodesigncrystallizationandvitrificationkinetics
AT matthiaswuttig thepotentialofchemicalbondingtodesigncrystallizationandvitrificationkinetics
AT christophpersch potentialofchemicalbondingtodesigncrystallizationandvitrificationkinetics
AT maximilianjmuller potentialofchemicalbondingtodesigncrystallizationandvitrificationkinetics
AT aakashyadav potentialofchemicalbondingtodesigncrystallizationandvitrificationkinetics
AT julianpries potentialofchemicalbondingtodesigncrystallizationandvitrificationkinetics
AT nataliehonne potentialofchemicalbondingtodesigncrystallizationandvitrificationkinetics
AT peterkerres potentialofchemicalbondingtodesigncrystallizationandvitrificationkinetics
AT shuaiwei potentialofchemicalbondingtodesigncrystallizationandvitrificationkinetics
AT hajimetanaka potentialofchemicalbondingtodesigncrystallizationandvitrificationkinetics
AT paolofantini potentialofchemicalbondingtodesigncrystallizationandvitrificationkinetics
AT enricovaresi potentialofchemicalbondingtodesigncrystallizationandvitrificationkinetics
AT fabiopellizzer potentialofchemicalbondingtodesigncrystallizationandvitrificationkinetics
AT matthiaswuttig potentialofchemicalbondingtodesigncrystallizationandvitrificationkinetics
_version_ 1718383455974195200

Ejemplares similares