Study of the adsorption and dehydrogenation steps of ethanol on a pt-sn surface with density functional theory

The development of Direct Ethanol Fuel Cells (DEFCs) is important for obtaining alternative energy converters. Within this objective, there is an interesting topic that is considered fundamental to the development of these devices: the ethanol reaction mechanism in the anode of the DEFCs. Some group...

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Autores:: Rivadeneira Paz, Rafael Esteban

Tipo de recurso:: Doctoral thesis

Fecha de publicación:: 2011

Institución:: Universidad Nacional de Colombia

Repositorio:: Universidad Nacional de Colombia

Idioma:: spa

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dc.title.spa.fl_str_mv	Study of the adsorption and dehydrogenation steps of ethanol on a pt-sn surface with density functional theory
title	Study of the adsorption and dehydrogenation steps of ethanol on a pt-sn surface with density functional theory
spellingShingle	Study of the adsorption and dehydrogenation steps of ethanol on a pt-sn surface with density functional theory 62 Ingeniería y operaciones afines / Engineering Ethanol oxidation Platinum-tin catalyst Adsorption, reaction mechanism Fuel cells Density functional theory.
title_short	Study of the adsorption and dehydrogenation steps of ethanol on a pt-sn surface with density functional theory
title_full	Study of the adsorption and dehydrogenation steps of ethanol on a pt-sn surface with density functional theory
title_fullStr	Study of the adsorption and dehydrogenation steps of ethanol on a pt-sn surface with density functional theory
title_full_unstemmed	Study of the adsorption and dehydrogenation steps of ethanol on a pt-sn surface with density functional theory
title_sort	Study of the adsorption and dehydrogenation steps of ethanol on a pt-sn surface with density functional theory
dc.creator.fl_str_mv	Rivadeneira Paz, Rafael Esteban
dc.contributor.advisor.spa.fl_str_mv	Chejne Janna, Farid (Thesis advisor)
dc.contributor.author.spa.fl_str_mv	Rivadeneira Paz, Rafael Esteban
dc.subject.ddc.spa.fl_str_mv	62 Ingeniería y operaciones afines / Engineering
topic	62 Ingeniería y operaciones afines / Engineering Ethanol oxidation Platinum-tin catalyst Adsorption, reaction mechanism Fuel cells Density functional theory.
dc.subject.proposal.spa.fl_str_mv	Ethanol oxidation Platinum-tin catalyst Adsorption, reaction mechanism Fuel cells Density functional theory.
description	The development of Direct Ethanol Fuel Cells (DEFCs) is important for obtaining alternative energy converters. Within this objective, there is an interesting topic that is considered fundamental to the development of these devices: the ethanol reaction mechanism in the anode of the DEFCs. Some groups have investigated this process, but still there are many difficulties to achieve a complete understanding of the ethanol reaction mechanism. Using experimentation procedures is difficult to identify the reaction intermediates and the reaction paths, whereas the theoretical investigations are still in development. These facts encourage both experimental and theoretical investigations to understand completely the ethanol reaction process in the DEFCs. Currently, the most commonly investigated catalytic surfaces are Pt-Ru, Pt-Sn, and Pt-Ru-Sn mixtures and some catalytic mixtures that contain nickel, Pt-Ru-Ni and Pt-Sn-Ni. Nevertheless the experimental studies cannot elucidate entirely the reaction intermediates and reaction paths. So to date there are not known satisfactory explanations of the catalytic processes existent in the ethanol adsorption and decomposition processes on different catalytic surfaces. Because of this, the theoretical investigation could help to elucidate the complex reaction mechanism involved in the ethanol reaction in the DEFCs. Considering this, it is carried out in this work the study of the initial steps of the ethanol reaction mechanism on a Pt-Sn catalytic surface. Specifically the potential energy surface (PES) of the adsorption and dehydrogenation steps of ethanol decomposition on a specific catalytic surface (Pt3Sn1 in atomic ratio) is investigated in this work, using self-consistent periodic slab calculations based on density functional theory. This research reveals that ethanol does not have an unique mode of adsorption on this catalytic surface, as well as the dehydrogenation pathway does not only proceed via the ethoxy species formation, but also via the 2-hydroxyethyl species formation. Additionally it is showed that acetaldehyde desorbs in the process of dehydrogenation of ethanol. These results allow to understand in detail the first steps of the ethanol oxidation on a specific catalytic surface, which constitutes a contribution to clarify the problem of selectivity in catalysts for DEFCs.
publishDate	2011
dc.date.issued.spa.fl_str_mv	2011
dc.date.accessioned.spa.fl_str_mv	2019-06-24T17:09:34Z
dc.date.available.spa.fl_str_mv	2019-06-24T17:09:34Z
dc.type.spa.fl_str_mv	Trabajo de grado - Doctorado
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dc.language.iso.spa.fl_str_mv	spa
language	spa
dc.relation.ispartof.spa.fl_str_mv	Universidad Nacional de Colombia Sede Medellín Facultad de Minas Escuela de Procesos y Energía Escuela de Procesos y Energía
dc.relation.references.spa.fl_str_mv	Rivadeneira Paz, Rafael Esteban (2011) Study of the adsorption and dehydrogenation steps of ethanol on a pt-sn surface with density functional theory. Doctorado thesis, Universidad Nacional de Colombia, Sede Medellín.
dc.rights.spa.fl_str_mv	Derechos reservados - Universidad Nacional de Colombia
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dc.rights.accessrights.spa.fl_str_mv	info:eu-repo/semantics/openAccess
rights_invalid_str_mv	Atribución-NoComercial 4.0 Internacional Derechos reservados - Universidad Nacional de Colombia http://creativecommons.org/licenses/by-nc/4.0/ http://purl.org/coar/access_right/c_abf2
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institution	Universidad Nacional de Colombia
bitstream.url.fl_str_mv	https://repositorio.unal.edu.co/bitstream/unal/8286/1/87102063.2011.pdf https://repositorio.unal.edu.co/bitstream/unal/8286/2/87102063.2011.pdf.jpg
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spelling	Atribución-NoComercial 4.0 InternacionalDerechos reservados - Universidad Nacional de Colombiahttp://creativecommons.org/licenses/by-nc/4.0/info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2Chejne Janna, Farid (Thesis advisor)56830a5f-448f-4ea7-8571-65bbc953464e-1Rivadeneira Paz, Rafael Esteban043298f6-b4b0-44e7-a729-93ef0c1d8db23002019-06-24T17:09:34Z2019-06-24T17:09:34Z2011https://repositorio.unal.edu.co/handle/unal/8286http://bdigital.unal.edu.co/4868/The development of Direct Ethanol Fuel Cells (DEFCs) is important for obtaining alternative energy converters. Within this objective, there is an interesting topic that is considered fundamental to the development of these devices: the ethanol reaction mechanism in the anode of the DEFCs. Some groups have investigated this process, but still there are many difficulties to achieve a complete understanding of the ethanol reaction mechanism. Using experimentation procedures is difficult to identify the reaction intermediates and the reaction paths, whereas the theoretical investigations are still in development. These facts encourage both experimental and theoretical investigations to understand completely the ethanol reaction process in the DEFCs. Currently, the most commonly investigated catalytic surfaces are Pt-Ru, Pt-Sn, and Pt-Ru-Sn mixtures and some catalytic mixtures that contain nickel, Pt-Ru-Ni and Pt-Sn-Ni. Nevertheless the experimental studies cannot elucidate entirely the reaction intermediates and reaction paths. So to date there are not known satisfactory explanations of the catalytic processes existent in the ethanol adsorption and decomposition processes on different catalytic surfaces. Because of this, the theoretical investigation could help to elucidate the complex reaction mechanism involved in the ethanol reaction in the DEFCs. Considering this, it is carried out in this work the study of the initial steps of the ethanol reaction mechanism on a Pt-Sn catalytic surface. Specifically the potential energy surface (PES) of the adsorption and dehydrogenation steps of ethanol decomposition on a specific catalytic surface (Pt3Sn1 in atomic ratio) is investigated in this work, using self-consistent periodic slab calculations based on density functional theory. This research reveals that ethanol does not have an unique mode of adsorption on this catalytic surface, as well as the dehydrogenation pathway does not only proceed via the ethoxy species formation, but also via the 2-hydroxyethyl species formation. Additionally it is showed that acetaldehyde desorbs in the process of dehydrogenation of ethanol. These results allow to understand in detail the first steps of the ethanol oxidation on a specific catalytic surface, which constitutes a contribution to clarify the problem of selectivity in catalysts for DEFCs.Doctoradoapplication/pdfspaUniversidad Nacional de Colombia Sede Medellín Facultad de Minas Escuela de Procesos y EnergíaEscuela de Procesos y EnergíaRivadeneira Paz, Rafael Esteban (2011) Study of the adsorption and dehydrogenation steps of ethanol on a pt-sn surface with density functional theory. Doctorado thesis, Universidad Nacional de Colombia, Sede Medellín.62 Ingeniería y operaciones afines / EngineeringEthanol oxidationPlatinum-tin catalystAdsorption, reaction mechanismFuel cellsDensity functional theory.Study of the adsorption and dehydrogenation steps of ethanol on a pt-sn surface with density functional theoryTrabajo de grado - Doctoradoinfo:eu-repo/semantics/doctoralThesisinfo:eu-repo/semantics/acceptedVersionhttp://purl.org/coar/resource_type/c_db06Texthttp://purl.org/redcol/resource_type/TDORIGINAL87102063.2011.pdfTesis de Doctorado en Ingeniería - Sistemas Energéticosapplication/pdf4011818https://repositorio.unal.edu.co/bitstream/unal/8286/1/87102063.2011.pdfa1cdf11d31772d298f048edec70d75cdMD51THUMBNAIL87102063.2011.pdf.jpg87102063.2011.pdf.jpgGenerated Thumbnailimage/jpeg4900https://repositorio.unal.edu.co/bitstream/unal/8286/2/87102063.2011.pdf.jpgc553f0f3920d490daa53b992628d47ecMD52unal/8286oai:repositorio.unal.edu.co:unal/82862023-10-20 21:39:20.506Repositorio Institucional Universidad Nacional de Colombiarepositorio_nal@unal.edu.co

Study of the adsorption and dehydrogenation steps of ethanol on a pt-sn surface with density functional theory

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