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From Ethanolamine Precursor Towards ZnO—How N Is Released from the Experimental and Theoretical Points of View

Para acceder a los documentos con el texto completo, por favor, siga el siguiente enlace: https://hdl.handle.net/10256/17179

Autor/a

Gómez Núñez, Alberto

Alonso Gil, Santiago

López, Concepción

Roura Grabulosa, Pere

Vilà, Anna

Fecha de publicación

2019-10-03



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Resumen

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This work presents experimental and computational studies on ZnO formation after decomposition of a sol-gel precursor containing ethanolamine and Zn(II) acetate. The structural modifications suffered during decomposition of the monomeric and dimeric Zn(II) complexes formed, containing bidentate deprotonated ethanolamine and acetato ligands, have been described experimentally and explained via Car-Parrinello Molecular Dynamics. Additional metadynamics simulations provide an overview of the dimer evolution by the cleavage of the Zn–N bond, the structural changes produced and their effects on the Zn(II) environment. The results provide conclusive evidence of the relevance of ethanolamine used as a stabilizer in the formation of ZnO

Tipo de documento

Artículo

Versión publicada

peer-reviewed

Lengua

Inglés

Materias y palabras clave

Etanolamines; Ethanolamines DEM; Materials nanoestructurats; Nanostructured materials

Publicado por

MDPI (Multidisciplinary Digital Publishing Institute)

Documentos relacionados

info:eu-repo/semantics/altIdentifier/doi/10.3390/nano9101415

info:eu-repo/semantics/altIdentifier/eissn/2079-4991

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Derechos

Attribution 4.0 International

http://creativecommons.org/licenses/by/4.0/

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Articles publicats Departament de Física [421]