Time-resolved molecular dynamics of single and double hydrogen migration in ethanol

Time-resolved molecular dynamics of single and double hydrogen migration in ethanol

Chemical dynamics in molecules involve particle migration and bond rearrangement. Here the authors show single and double hydrogen migration in ethanol cations and dications that are generated by using intense laser pulse interaction with a jet of ethanol molecules.

Bibliographic Details
Main Authors: Nora G. Kling, S. Díaz-Tendero, R. Obaid, M. R. Disla, H. Xiong, M. Sundberg, S. D. Khosravi, M. Davino, P. Drach, A. M. Carroll, T. Osipov, F. Martín, N. Berrah
Format: Article
Language:English
Published: Nature Publishing Group 2019-06-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-019-10571-9
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spelling doaj-ffe38b78a28240b3a4720826bad3036c2021-05-11T11:30:26ZengNature Publishing GroupNature Communications2041-17232019-06-011011810.1038/s41467-019-10571-9Time-resolved molecular dynamics of single and double hydrogen migration in ethanolNora G. Kling0S. Díaz-Tendero1R. Obaid2M. R. Disla3H. Xiong4M. Sundberg5S. D. Khosravi6M. Davino7P. Drach8A. M. Carroll9T. Osipov10F. Martín11N. Berrah12Department of Physics, University of ConnecticutDepartamento de Química, Módulo 13, Universidad Autónoma de MadridDepartment of Physics, University of ConnecticutDepartment of Physics, University of ConnecticutDepartment of Physics, University of ConnecticutDepartment of Physics, University of ConnecticutDepartment of Physics, University of ConnecticutDepartment of Physics, University of ConnecticutDepartment of Physics, University of ConnecticutDepartment of Physics, University of ConnecticutLCLS, SLAC National Accelerator LaboratoryDepartamento de Química, Módulo 13, Universidad Autónoma de MadridDepartment of Physics, University of ConnecticutChemical dynamics in molecules involve particle migration and bond rearrangement. Here the authors show single and double hydrogen migration in ethanol cations and dications that are generated by using intense laser pulse interaction with a jet of ethanol molecules.https://doi.org/10.1038/s41467-019-10571-9
collection DOAJ
language English
format Article
sources DOAJ
author Nora G. Kling
S. Díaz-Tendero
R. Obaid
M. R. Disla
H. Xiong
M. Sundberg
S. D. Khosravi
M. Davino
P. Drach
A. M. Carroll
T. Osipov
F. Martín
N. Berrah
spellingShingle Nora G. Kling
S. Díaz-Tendero
R. Obaid
M. R. Disla
H. Xiong
M. Sundberg
S. D. Khosravi
M. Davino
P. Drach
A. M. Carroll
T. Osipov
F. Martín
N. Berrah
Time-resolved molecular dynamics of single and double hydrogen migration in ethanol
Nature Communications
author_facet Nora G. Kling
S. Díaz-Tendero
R. Obaid
M. R. Disla
H. Xiong
M. Sundberg
S. D. Khosravi
M. Davino
P. Drach
A. M. Carroll
T. Osipov
F. Martín
N. Berrah
author_sort Nora G. Kling
title Time-resolved molecular dynamics of single and double hydrogen migration in ethanol
title_short Time-resolved molecular dynamics of single and double hydrogen migration in ethanol
title_full Time-resolved molecular dynamics of single and double hydrogen migration in ethanol
title_fullStr Time-resolved molecular dynamics of single and double hydrogen migration in ethanol
title_full_unstemmed Time-resolved molecular dynamics of single and double hydrogen migration in ethanol
title_sort time-resolved molecular dynamics of single and double hydrogen migration in ethanol
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2019-06-01
description Chemical dynamics in molecules involve particle migration and bond rearrangement. Here the authors show single and double hydrogen migration in ethanol cations and dications that are generated by using intense laser pulse interaction with a jet of ethanol molecules.
url https://doi.org/10.1038/s41467-019-10571-9
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