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https://www.sciencedirect.com/science/article/pii/S2211285516300362
Carbon is the most widely used support material for PEM fuel cell catalysts because of its high electrical conductivity, accessibility and affordability, relatively high chemical and electrochemical stability. Carbon materials with multi-dimensional structures provide great opportunities in electrocatalyst design.Cited by: 76
https://www.sciencedirect.com/science/article/abs/pii/S2211285516300362
PEM fuel cell is among key electrochemical energy technologies for a sustainable society; Electrocatalyst support materials are key components for PEM fuel cells. Three types of important support materials: carbon, non-carbon and hybrid carbon-oxides nanocomposites are reviewed in …
https://pubs.rsc.org/en/content/articlehtml/2009/jm/b808370c
First published on 10th November 2008 Catalyst support materials exhibit great influence on the cost, performance, and durability of polymer electrolyte membrane fuel cells.This feature article summarizes several important kinds of novel support materials for PEM fuel cells (including direct methanol fuel cells): nanostructured carbon materials (carbon nanotubes, carbon nanofibers, mesoporous ...Cited by: 645
https://www.researchgate.net/publication/266640279_PEM_Fuel_Cell_Catalysts_The_Importance_of_Catalyst_Support
Carbon support corrosion and Pt dissolution/aggregation are considered as the major contributors to the degradation of the carbon-supported Pt or Pt alloy catalysts. This paper will provide recent...
http://www.scribner.com/faq/1-in-situ-pem-fc-electrochemical-surface-area-and-catalyst-utilization-measurement/
Oct 19, 2017 · A typical proton exchange membrane fuel cell (PEMFC) catalyst layer is a porous, three dimensional structure consisting of carbon support, platinum (Pt) or Pt-alloy catalyst and ionomer such as Nafion ®, all in intimate contact. The carbon support enhances the bulk electronic conductivity of the electrode and dispersion of the catalyst nanoparticles.
https://www.hydrogen.energy.gov/pdfs/review11/fc001_debe_2011_o.pdf
electrode (catalyst and support), that is fully integrated into a fuel cell membrane electrode assembly with gas diffusion media, fabricated by high volume capable processes, and is able to meet or exceed the 2015 DOE targets.
https://www.technology.matthey.com/article/57/4/259-271/
Proton exchange membrane fuel cells (PEMFCs) dominate the transportation fuel cell market and platinum (Pt) is the catalyst material used for both anode and cathode. This review sets out the fundamentals of activity, selectivity, stability and poisoning resistance which make Pt or its alloys the best available materials to use in this application.
https://www.researchgate.net/publication/230529977_Ordered_Mesoporous_Carbons_as_Catalyst_Support_for_PEM_Fuel_Cells
This work demonstrates the impact of the nanostructure (pore size, wall thickness and wall crystallinity) of several carbon materials on their performance as oxygen reduction reaction (ORR)...
https://www.sciencedirect.com/topics/engineering/proton-exchange-membrane-fuel-cells
PEM fuel cell directly converts chemical energy of a fuel into electricity by the reaction of hydrogen with oxygen over a proper catalyst with water as by-product. The working principle of a PEM fuel cell is shown in Fig. 41.2.3.
https://en.wikipedia.org/wiki/Proton-exchange_membrane_fuel_cell
As mentioned above, platinum is by far the most effective element used for PEM fuel cell catalysts, and nearly all current PEM fuel cells use platinum particles on porous carbon supports to catalyze both hydrogen oxidation and oxygen reduction.
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