Ionic fragmentation of a natural product, limonene (C10H16), following core

Castilho, R. B. de; Nunez, C. V.; Coutinho, Lúcia H.; Lago, Alexsandre F.; Bernini, Rafael Berrelho; Souza, Gerardo Gerson Bezerra de

Artigo

Ionic fragmentation of a natural product, limonene (C10H16), following core

Photoionization of the limonene [C10H16] molecule was studied for the first time following C 1s ionization, using synchrotron radiation and time-of-fight mass spectrometry. As a reference for further analysis of the photon induced fragmentation of the limonene molecule, the He(I) mass spectrum was a...

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Autor principal:	Castilho, R. B. de
Outros Autores:	Nunez, C. V., Coutinho, Lúcia H., Lago, Alexsandre F., Bernini, Rafael Berrelho, Souza, Gerardo Gerson Bezerra de
Grau:	Artigo
Idioma:	English
Publicado em:	Journal of Electron Spectroscopy and Related Phenomena 2020
Assuntos:	Kinetic Energy Mass Spectrometry Photoionization Photons Reaction Kinetics Synchrotron Radiation Core Ionization Electron Impact Mass Spectrum Limonene Time-of-flight Mass Spectrometry Organic Compounds
Acesso em linha:	https://repositorio.inpa.gov.br/handle/1/18694

id	oai:repositorio:1-18694
recordtype	dspace
spelling	oai:repositorio:1-18694 Ionic fragmentation of a natural product, limonene (C10H16), following core C 1s] photoionization Castilho, R. B. de Nunez, C. V. Coutinho, Lúcia H. Lago, Alexsandre F. Bernini, Rafael Berrelho Souza, Gerardo Gerson Bezerra de Kinetic Energy Mass Spectrometry Photoionization Photons Reaction Kinetics Synchrotron Radiation Core Ionization Electron Impact Mass Spectrum Limonene Time-of-flight Mass Spectrometry Organic Compounds Photoionization of the limonene [C10H16] molecule was studied for the first time following C 1s ionization, using synchrotron radiation and time-of-fight mass spectrometry. As a reference for further analysis of the photon induced fragmentation of the limonene molecule, the He(I) mass spectrum was also obtained. Previously unreported singly charged species have been observed at 310 eV: H+, C+, CH+, CH2 +, CH3 +. A close similarity has been observed between the high photon energy mass spectrum and the standard electron impact mass spectrum of limonene, obtained at 70 eV. In particular, the base peak [C5H8 +, m/q = 68], known to result from a Retro Diels-Alder reaction, remains the same in both cases. Approximate values for the mean kinetic energy were determined for all ionic species. © 2006 Elsevier B.V. All rights reserved. 2020-06-15T22:02:36Z 2020-06-15T22:02:36Z 2007 Artigo https://repositorio.inpa.gov.br/handle/1/18694 10.1016/j.elspec.2006.12.020 en Volume 155, Número 1-3, Pags. 77-80 Restrito Journal of Electron Spectroscopy and Related Phenomena
institution	Instituto Nacional de Pesquisas da Amazônia - Repositório Institucional
collection	INPA-RI
language	English
topic	Kinetic Energy Mass Spectrometry Photoionization Photons Reaction Kinetics Synchrotron Radiation Core Ionization Electron Impact Mass Spectrum Limonene Time-of-flight Mass Spectrometry Organic Compounds
spellingShingle	Kinetic Energy Mass Spectrometry Photoionization Photons Reaction Kinetics Synchrotron Radiation Core Ionization Electron Impact Mass Spectrum Limonene Time-of-flight Mass Spectrometry Organic Compounds Castilho, R. B. de Ionic fragmentation of a natural product, limonene (C10H16), following core
topic_facet	Kinetic Energy Mass Spectrometry Photoionization Photons Reaction Kinetics Synchrotron Radiation Core Ionization Electron Impact Mass Spectrum Limonene Time-of-flight Mass Spectrometry Organic Compounds
description	Photoionization of the limonene [C10H16] molecule was studied for the first time following C 1s ionization, using synchrotron radiation and time-of-fight mass spectrometry. As a reference for further analysis of the photon induced fragmentation of the limonene molecule, the He(I) mass spectrum was also obtained. Previously unreported singly charged species have been observed at 310 eV: H+, C+, CH+, CH2 +, CH3 +. A close similarity has been observed between the high photon energy mass spectrum and the standard electron impact mass spectrum of limonene, obtained at 70 eV. In particular, the base peak [C5H8 +, m/q = 68], known to result from a Retro Diels-Alder reaction, remains the same in both cases. Approximate values for the mean kinetic energy were determined for all ionic species. © 2006 Elsevier B.V. All rights reserved.
format	Artigo
author	Castilho, R. B. de
author2	Nunez, C. V. Coutinho, Lúcia H. Lago, Alexsandre F. Bernini, Rafael Berrelho Souza, Gerardo Gerson Bezerra de
author2Str	Nunez, C. V. Coutinho, Lúcia H. Lago, Alexsandre F. Bernini, Rafael Berrelho Souza, Gerardo Gerson Bezerra de
title	Ionic fragmentation of a natural product, limonene (C10H16), following core
title_short	Ionic fragmentation of a natural product, limonene (C10H16), following core
title_full	Ionic fragmentation of a natural product, limonene (C10H16), following core
title_fullStr	Ionic fragmentation of a natural product, limonene (C10H16), following core
title_full_unstemmed	Ionic fragmentation of a natural product, limonene (C10H16), following core
title_sort	ionic fragmentation of a natural product, limonene (c10h16), following core
publisher	Journal of Electron Spectroscopy and Related Phenomena
publishDate	2020
url	https://repositorio.inpa.gov.br/handle/1/18694
_version_	1787141155035545600
score	11.755432

Ionic fragmentation of a natural product, limonene (C10H16), following core

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