1. Low-cost graphite as durable support for Pt-based cathode electrocatalysts for proton exchange membrane based fuel cells.
- Author
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Chourashiya, Muralidhar, Vindt, Steffen Thrane, Velázquez Palenzuela, Amado Andrés, Pedersen, Christoffer Mølleskov, Kallesøe, Christian, and Andersen, Shuang Ma
- Subjects
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PROTON exchange membrane fuel cells , *FUEL cell efficiency , *ELECTROCATALYSTS , *ELECTRIC properties of graphene , *ELECTROCATALYSIS - Abstract
Abstract Proton exchange membrane fuel cell (PEMFC) technology has reached pre-commercial viability, but their insufficient durability acts as a major roadblock in its full-fledged utilization. It has been well established that the issue of durability is majorly due to the corrosion of carbon support used for Pt. Therefore, a search for low-cost and robust alternative support is highly desirable. In this paper, different graphite (and graphene) materials as durable support for Pt-based electrocatalyst are investigated. We followed the top-down approach where a fully graphitized support is mildly wet-milled and surface-treated to give a sufficient surface modification for improved Pt deposition on these supports. All the graphite-supported Pt samples showed better durability than that of state-of-the-art commercial electrocatalysts. Considering both activity and durability the best catalyst among the investigated samples showed a comparable mass specific activity (MSA) of 0.186 A/mg and significantly higher durability (70%) after 7500 stress cycles. For HiSpec9100 and BASF commercial electrocatalysts, the normalized ESA retention value after 7500 stress cycles was 40% and 47%, respectively. Graphical abstract Image 1 Highlights • Wet milled graphite as a support showed improved Pt loading on the support. • Pt deposited graphite supports are more durable than commercial electrocatalyst. • Increasing Pt loading reduces the durability of Pt deposited graphite support. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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