An Examination of the Catalyst Layer Contribution to the Disparity between the Nernst Potential and Open Circuit Potential in Proton Exchange Membrane Fuel Cells

Mardle, Peter; Cerri, Isotta; Suzuki, Toshiyuki

doi:10.3390/catal11080965

Cited by 4 publications

(3 citation statements)

References 32 publications

(48 reference statements)

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“…Similar effects were reported by Mardle et al. by comparison of Pt and Pt‐alloy (Ni, Co) catalysts [37] . Further differences in the polarization curves in Figure 2c can be seen in the ohmic region at intermediate (>0.3 A cm −2 ) and at higher current densities (>0.5 A cm −2 ).…”

Section: Resultssupporting

confidence: 88%

“…Similar effects were reported by Mardle et al by comparison of Pt and Pt-alloy (Ni, Co) catalysts. [37] Further differences in the polarization curves in Figure 2c can be seen in the ohmic region at intermediate (> 0.3 A cm À 2 ) and at higher current densities (> 0.5 A cm À 2 ). The hybrid MEAs show a drastic decrease in voltage with increasing current density which could be attributed to higher resistances in terms of proton conduction related to acid distribution within the CL.…”

Section: First Activation Period and Performancementioning

confidence: 86%

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Towards the Reduction of Pt Loading in High Temperature Proton Exchange Membrane Fuel Cells – Effect of Fe−N−C in Pt‐Alloy Cathodes

et al. 2023

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Pt poisoning by phosphate in high temperature proton exchange membrane fuel cells (HT‐PEMFC) leads to loadings up to 1 mgPt cm−2 per electrode of costly materials. While cheaper Fe−N−C catalysts are unaffected by phosphate deactivation and contribute to the catalysis of the oxygen reduction reaction, their volumetric activity is substantially lower. In this study, the effect of Pt‐loading reduced hybrid cathodes for HT‐PEMFC is investigated using commercial Celtec®‐P‐based assembling. A promising effect of Fe−N−C incorporation in terms of acid attraction and activity retention is found. A longer activation (230 h, 0.3 A cm−2) for the hybrid membrane electrode assembly (MEA) is necessary, due to the slower acid distribution within Fe−N−Cs. This study shows the potential of Pt‐content reduction by up to 25 % compared to standard MEA using hybrid electrodes. Moreover, important insights for future strategies of cell activation are revealed for these hybrid MEAs.

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Section: Resultssupporting

confidence: 88%

Section: First Activation Period and Performancementioning

confidence: 86%

Towards the Reduction of Pt Loading in High Temperature Proton Exchange Membrane Fuel Cells – Effect of Fe−N−C in Pt‐Alloy Cathodes

et al. 2023

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“…This value is admirable and shows that the theoretical and experimental slopes correspond quite well. (17)(18)(19)(20)(21)(22)(23)(24)(25). The highest initial response (H o ) was recorded after a concentration sample was passed without an injection, and the degree of dispersion was estimated using the equation below (26).…”

Section: 9mentioning

confidence: 99%

Determination, Manufacturing and application of a nanoparticle lead ion-selective electrode as a sensor in flow injection systems

Al-Samarrai

2024

Sensors and Machine Learning Applications

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This study involves the construction of ion-selective electrodes for the determination of lead (II) ions and their utilization as sensors in a flow-injection analysis (FIA) system. The electrode was constructed using a simple environmentally friendly method from a green tea extract, and a Lead acetate solution of the cited ions as a cylindrical disc. A vertical, side-to-side cylinder, the whole is created in its centre and another lateral hole is created for the electrical attachment of the electrode, so the prepared electrode is suitable for use with the FIA system. The electrode was studied surface properties and characteristics of this electrode were analysed using X-ray diffraction and Fourier-transform infrared spectroscopy (FTR). via selection of the optimum conditions (i.e. linear calibration range, lowest Nernstian response, lowest detection limit, degree of dilution, and precision and accuracy of their analytical uses). Electrode which gave the best Nernstian response1.00×10-1 to 1.00×10-10 M, a correlation coefficient of 0.9980, with lower Nernstian response of 1×10-10 M and detection limit of 1×10-11 M. The sampling rate was 120 samples per hour the calculated time of the contact of the sample with the electrode surface is 6 seconds and the degree of dilution is 2.37625.

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Rapid activation of a full-length proton exchange membrane fuel cell stack with a novel intermittent oxygen starvation method

Yang

Lan

Chu

et al. 2022

Energy

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An Examination of the Catalyst Layer Contribution to the Disparity between the Nernst Potential and Open Circuit Potential in Proton Exchange Membrane Fuel Cells

Cited by 4 publications

References 32 publications

Towards the Reduction of Pt Loading in High Temperature Proton Exchange Membrane Fuel Cells – Effect of Fe−N−C in Pt‐Alloy Cathodes

Towards the Reduction of Pt Loading in High Temperature Proton Exchange Membrane Fuel Cells – Effect of Fe−N−C in Pt‐Alloy Cathodes

Determination, Manufacturing and application of a nanoparticle lead ion-selective electrode as a sensor in flow injection systems

Rapid activation of a full-length proton exchange membrane fuel cell stack with a novel intermittent oxygen starvation method

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