Comprehensive Molecular Dynamics Study of Oxygen Diffusion in Carbon Mesopores: Insights for Designing Fuel-Cell Catalyst Supports

Kikkawa, Nobuaki; Kimura, Masayuki

doi:10.1021/acs.langmuir.3c02627

Langmuir

2024

DOI: 10.1021/acs.langmuir.3c02627

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Comprehensive Molecular Dynamics Study of Oxygen Diffusion in Carbon Mesopores: Insights for Designing Fuel-Cell Catalyst Supports

Nobuaki Kikkawa,

Masayuki Kimura

Abstract: Mesoporous carbon is often used as a support for platinum catalysts in polymer electrolyte fuel-cell catalyst layers. Mesopores in the carbon support improve the performance of fuel cells by inhibiting the adsorption of ionomer onto the catalyst particles. However, the mesopores may impair mass transport. Hence, understanding molecular behaviors in the pores is essential to optimizing the mesopore structures. Specifically, it is crucial to understand the oxygen transport in the high-current region. In this stu… Show more

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Cited by 2 publications

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A study on the thermal behavior of coal gangue mountains under airflow influence based on MD and CFD simulations

Wang,

Yang,

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et al. 2024

International Journal of Hydrogen Energy

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A study on the thermal behavior of coal gangue mountains under airflow influence based on MD and CFD simulations

Wang,

Yang,

Wang

et al. 2024

International Journal of Hydrogen Energy

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Steam Gasification of PEMFC Catalysts: An Endothermal Process to Create Accessible Carbon Support Morphologies

Lazaridis,

Gasteiger

2024

J. Electrochem. Soc.

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Platinum catalysts supported on porous carbons are considered state-of-the-art for proton-exchange membrane fuel cells (PEMFCs) due to their ability to protect Pt nanoparticles within the internal pores of the primary carbon particles. This shielding enables high oxygen reduction reaction (ORR) activity by separating the Pt particles from ionomer contact and endows them with greater resilience against voltage cycling-induced degradation. However, the pore enclosure impedes oxygen diffusion to internal platinum particles at high current densities, incurring significant voltage losses particularly at low cathode loadings (∼0.07 mgPt cm−2). Such transport bottlenecks can be mitigated by localized oxidation, a thermal post-treatment enabling Pt particles to etch open the surrounding pore space via Pt-catalyzed carbon oxidation. The strong exothermicity of this reaction, however, is challenging for process scale-up. We explore Pt-catalyzed steam gasification of Pt/Ketjenblack as an endothermal, but otherwise functionally similar post-treatment to increase catalyst accessibility. Connecting physico- and electrochemical characterizations of steam-gasified catalysts, we identify the generation of mesopore volume to be crucial for high current density performance and efficient oxygen transport. Ultimately, locally oxidized and steam-gasified catalysts reveal subtle differences in their respective etching mechanisms, resulting in marginally less efficient pore opening, but also better ORR activity retention for steam gasification.

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Comprehensive Molecular Dynamics Study of Oxygen Diffusion in Carbon Mesopores: Insights for Designing Fuel-Cell Catalyst Supports

Cited by 2 publications

References 63 publications

A study on the thermal behavior of coal gangue mountains under airflow influence based on MD and CFD simulations

A study on the thermal behavior of coal gangue mountains under airflow influence based on MD and CFD simulations

Steam Gasification of PEMFC Catalysts: An Endothermal Process to Create Accessible Carbon Support Morphologies

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