PtPd Hybrid Composite Catalysts as Cathodes for Proton Exchange Membrane Fuel Cells

PtPd Hybrid Composite Catalysts as Cathodes for Proton Exchange Membrane Fuel Cells

In this work, PtPd hybrid cathodic catalysts were prepared for a proton exchange membrane fuel cell (PEMFC) application by two different strategies. The first strategy was the physical mixing of bimetallic PtPd onto partially reduced graphene oxide (PtPd/rGO) and PtPd onto multi-walled carbon nanotu...

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Main Authors: Yazmín Yorely Rivera-Lugo, Kevin Isaac Pérez-Muñoz, Balter Trujillo-Navarrete, Carolina Silva-Carrillo, Edgar Alonso Reynoso-Soto, Julio Cesar Calva Yañez, Shui Wai Lin, José Roberto Flores-Hernández, Rosa María Félix-Navarro
Format: Article
Language:English
Published: MDPI AG 2020-01-01
Series:Energies
Subjects:
ptpd
supported electrocatalyst
mwcnt
graphene
orr
pemfc
Online Access:https://www.mdpi.com/1996-1073/13/2/316
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spelling doaj-e5220a3fdc5141089f970fc0519d7b6d2020-11-25T02:13:32ZengMDPI AGEnergies1996-10732020-01-0113231610.3390/en13020316en13020316PtPd Hybrid Composite Catalysts as Cathodes for Proton Exchange Membrane Fuel CellsYazmín Yorely Rivera-Lugo0Kevin Isaac Pérez-Muñoz1Balter Trujillo-Navarrete2Carolina Silva-Carrillo3Edgar Alonso Reynoso-Soto4Julio Cesar Calva Yañez5Shui Wai Lin6José Roberto Flores-Hernández7Rosa María Félix-Navarro8Tecnológico Nacional de Mexico, Instituto Tecnológico de Tijuana, Centro de Graduados e Investigación en Química, Blvd. Alberto Limón Padilla, s/n, Otay Tecnológico, Tijuana 22510 B.C., MexicoTecnológico Nacional de Mexico, Instituto Tecnológico de Tijuana, Centro de Graduados e Investigación en Química, Blvd. Alberto Limón Padilla, s/n, Otay Tecnológico, Tijuana 22510 B.C., MexicoTecnológico Nacional de Mexico, Instituto Tecnológico de Tijuana, Centro de Graduados e Investigación en Química, Blvd. Alberto Limón Padilla, s/n, Otay Tecnológico, Tijuana 22510 B.C., MexicoTecnológico Nacional de Mexico, Instituto Tecnológico de Tijuana, Centro de Graduados e Investigación en Química, Blvd. Alberto Limón Padilla, s/n, Otay Tecnológico, Tijuana 22510 B.C., MexicoTecnológico Nacional de Mexico, Instituto Tecnológico de Tijuana, Centro de Graduados e Investigación en Química, Blvd. Alberto Limón Padilla, s/n, Otay Tecnológico, Tijuana 22510 B.C., MexicoCONACYT-Tecnológico Nacional de Mexico, I.T. Tijuana, Centro de Graduados e Investigación en Química, Blvd. Alberto Limón Padilla, s/n, Otay Tecnológico, Tijuana 22510 B.C., MexicoTecnológico Nacional de Mexico, Instituto Tecnológico de Tijuana, Centro de Graduados e Investigación en Química, Blvd. Alberto Limón Padilla, s/n, Otay Tecnológico, Tijuana 22510 B.C., MexicoInstituto Nacional de Electricidad y Energías Limpias, Ave. Reforma 113 Col. Palmira, Cuernavaca 62490, Morelos, MexicoTecnológico Nacional de Mexico, Instituto Tecnológico de Tijuana, Centro de Graduados e Investigación en Química, Blvd. Alberto Limón Padilla, s/n, Otay Tecnológico, Tijuana 22510 B.C., MexicoIn this work, PtPd hybrid cathodic catalysts were prepared for a proton exchange membrane fuel cell (PEMFC) application by two different strategies. The first strategy was the physical mixing of bimetallic PtPd onto partially reduced graphene oxide (PtPd/rGO) and PtPd onto multi-walled carbon nanotubes (PtPd/MWCNT); (PtPd/rGO) + (PtPd/MWCNT). The second strategy was physical mixing of both carbonaceous supports before the PtPd deposition to form PtPd/(rGO:MWCNT). Our experimental results revealed that the PtPd nanomaterial prepared over a mixture of both carbonaceous supports had better oxygen reduction reaction (ORR) and PEMFC performances than the individually prepared catalysts. The insertion of MWCNT between rGO sheets prevented their stacking. This promoted the diffusion of oxygen molecules through the interlayer spacing, enhancing the ORR’s electrocatalytic activity. The durability test demonstrated that the hybrid supporting material dramatically improved the catalyst’s stability even after 3000 reaction cycles. This highlighted an increase greater than 100% for hybrid nanocomposites in their electrocatalytic activity as compared with the PtPd/rGO nanocomposite.https://www.mdpi.com/1996-1073/13/2/316ptpdsupported electrocatalystmwcntgrapheneorrpemfc
collection DOAJ
language English
format Article
sources DOAJ
author Yazmín Yorely Rivera-Lugo
Kevin Isaac Pérez-Muñoz
Balter Trujillo-Navarrete
Carolina Silva-Carrillo
Edgar Alonso Reynoso-Soto
Julio Cesar Calva Yañez
Shui Wai Lin
José Roberto Flores-Hernández
Rosa María Félix-Navarro
spellingShingle Yazmín Yorely Rivera-Lugo
Kevin Isaac Pérez-Muñoz
Balter Trujillo-Navarrete
Carolina Silva-Carrillo
Edgar Alonso Reynoso-Soto
Julio Cesar Calva Yañez
Shui Wai Lin
José Roberto Flores-Hernández
Rosa María Félix-Navarro
PtPd Hybrid Composite Catalysts as Cathodes for Proton Exchange Membrane Fuel Cells
Energies
ptpd
supported electrocatalyst
mwcnt
graphene
orr
pemfc
author_facet Yazmín Yorely Rivera-Lugo
Kevin Isaac Pérez-Muñoz
Balter Trujillo-Navarrete
Carolina Silva-Carrillo
Edgar Alonso Reynoso-Soto
Julio Cesar Calva Yañez
Shui Wai Lin
José Roberto Flores-Hernández
Rosa María Félix-Navarro
author_sort Yazmín Yorely Rivera-Lugo
title PtPd Hybrid Composite Catalysts as Cathodes for Proton Exchange Membrane Fuel Cells
title_short PtPd Hybrid Composite Catalysts as Cathodes for Proton Exchange Membrane Fuel Cells
title_full PtPd Hybrid Composite Catalysts as Cathodes for Proton Exchange Membrane Fuel Cells
title_fullStr PtPd Hybrid Composite Catalysts as Cathodes for Proton Exchange Membrane Fuel Cells
title_full_unstemmed PtPd Hybrid Composite Catalysts as Cathodes for Proton Exchange Membrane Fuel Cells
title_sort ptpd hybrid composite catalysts as cathodes for proton exchange membrane fuel cells
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2020-01-01
description In this work, PtPd hybrid cathodic catalysts were prepared for a proton exchange membrane fuel cell (PEMFC) application by two different strategies. The first strategy was the physical mixing of bimetallic PtPd onto partially reduced graphene oxide (PtPd/rGO) and PtPd onto multi-walled carbon nanotubes (PtPd/MWCNT); (PtPd/rGO) + (PtPd/MWCNT). The second strategy was physical mixing of both carbonaceous supports before the PtPd deposition to form PtPd/(rGO:MWCNT). Our experimental results revealed that the PtPd nanomaterial prepared over a mixture of both carbonaceous supports had better oxygen reduction reaction (ORR) and PEMFC performances than the individually prepared catalysts. The insertion of MWCNT between rGO sheets prevented their stacking. This promoted the diffusion of oxygen molecules through the interlayer spacing, enhancing the ORR’s electrocatalytic activity. The durability test demonstrated that the hybrid supporting material dramatically improved the catalyst’s stability even after 3000 reaction cycles. This highlighted an increase greater than 100% for hybrid nanocomposites in their electrocatalytic activity as compared with the PtPd/rGO nanocomposite.
topic ptpd
supported electrocatalyst
mwcnt
graphene
orr
pemfc
url https://www.mdpi.com/1996-1073/13/2/316
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