Increasing the site density of non-precious metal catalysts in fuel cell electrodes

Lior Elbaz; Fernando H. Garzon

doi:10.1016/j.jelechem.2013.04.013

Increasing the site density of non-precious metal catalysts in fuel cell electrodes

Lior Elbaz, Fernando H. Garzon

Research output: Contribution to journal › Article › peer-review

Abstract

Development of new non-precious metal based catalysts for fuel cells is crucial for the viability of the technology. This class of catalysts has relatively low turnover frequencies for oxygen reduction reaction (ORR) when compared to platinum. One way to compensate for it is to increase the catalyst site density. In this work, a model system for a high site density catalytic layer for polymer electrolyte fuel cells was synthesized and characterized. Dipyrromethane was electropolymerized on glassy carbon and glass/ITO electrodes to form a ligand matrix of up to 200 nm in thickness, to which, cobalt was introduced during the electropolymerization process. Thin polymeric sheets were observed after the electrochemical synthesis and the cobalt density in the matrix was found to be 9.84 × 10²¹ cobalt atoms cm ^-3. ORR activity was demonstrated with oxygen reduction occurring at E_1/2 = 0.45 V and has an onset potential of 0.62 V vs. RHE.

Original language	English
Pages (from-to)	65-69
Number of pages	5
Journal	Journal Of Electroanalytical Chemistry
Volume	700
DOIs	https://doi.org/10.1016/j.jelechem.2013.04.013
State	Published - 2013
Externally published	Yes

Keywords

Dipyrromethane
Electropolymerization
Non-precious metal catalyst
Oxygen reduction

All Science Journal Classification (ASJC) codes

Analytical Chemistry
General Chemical Engineering
Electrochemistry

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10.1016/j.jelechem.2013.04.013

Cite this

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title = "Increasing the site density of non-precious metal catalysts in fuel cell electrodes",

abstract = "Development of new non-precious metal based catalysts for fuel cells is crucial for the viability of the technology. This class of catalysts has relatively low turnover frequencies for oxygen reduction reaction (ORR) when compared to platinum. One way to compensate for it is to increase the catalyst site density. In this work, a model system for a high site density catalytic layer for polymer electrolyte fuel cells was synthesized and characterized. Dipyrromethane was electropolymerized on glassy carbon and glass/ITO electrodes to form a ligand matrix of up to 200 nm in thickness, to which, cobalt was introduced during the electropolymerization process. Thin polymeric sheets were observed after the electrochemical synthesis and the cobalt density in the matrix was found to be 9.84 × 1021 cobalt atoms cm -3. ORR activity was demonstrated with oxygen reduction occurring at E1/2 = 0.45 V and has an onset potential of 0.62 V vs. RHE.",

keywords = "Dipyrromethane, Electropolymerization, Non-precious metal catalyst, Oxygen reduction",

author = "Lior Elbaz and Garzon, {Fernando H.}",

year = "2013",

doi = "10.1016/j.jelechem.2013.04.013",

language = "الإنجليزيّة",

volume = "700",

pages = "65--69",

journal = "Journal Of Electroanalytical Chemistry",

issn = "1572-6657",

publisher = "Elsevier B.V.",

}

TY - JOUR

T1 - Increasing the site density of non-precious metal catalysts in fuel cell electrodes

AU - Elbaz, Lior

AU - Garzon, Fernando H.

PY - 2013

Y1 - 2013

N2 - Development of new non-precious metal based catalysts for fuel cells is crucial for the viability of the technology. This class of catalysts has relatively low turnover frequencies for oxygen reduction reaction (ORR) when compared to platinum. One way to compensate for it is to increase the catalyst site density. In this work, a model system for a high site density catalytic layer for polymer electrolyte fuel cells was synthesized and characterized. Dipyrromethane was electropolymerized on glassy carbon and glass/ITO electrodes to form a ligand matrix of up to 200 nm in thickness, to which, cobalt was introduced during the electropolymerization process. Thin polymeric sheets were observed after the electrochemical synthesis and the cobalt density in the matrix was found to be 9.84 × 1021 cobalt atoms cm -3. ORR activity was demonstrated with oxygen reduction occurring at E1/2 = 0.45 V and has an onset potential of 0.62 V vs. RHE.

AB - Development of new non-precious metal based catalysts for fuel cells is crucial for the viability of the technology. This class of catalysts has relatively low turnover frequencies for oxygen reduction reaction (ORR) when compared to platinum. One way to compensate for it is to increase the catalyst site density. In this work, a model system for a high site density catalytic layer for polymer electrolyte fuel cells was synthesized and characterized. Dipyrromethane was electropolymerized on glassy carbon and glass/ITO electrodes to form a ligand matrix of up to 200 nm in thickness, to which, cobalt was introduced during the electropolymerization process. Thin polymeric sheets were observed after the electrochemical synthesis and the cobalt density in the matrix was found to be 9.84 × 1021 cobalt atoms cm -3. ORR activity was demonstrated with oxygen reduction occurring at E1/2 = 0.45 V and has an onset potential of 0.62 V vs. RHE.

KW - Dipyrromethane

KW - Electropolymerization

KW - Non-precious metal catalyst

KW - Oxygen reduction

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U2 - 10.1016/j.jelechem.2013.04.013

DO - 10.1016/j.jelechem.2013.04.013

M3 - مقالة

SN - 1572-6657

VL - 700

SP - 65

EP - 69

JO - Journal Of Electroanalytical Chemistry

JF - Journal Of Electroanalytical Chemistry

ER -

Increasing the site density of non-precious metal catalysts in fuel cell electrodes

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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