Add to ORKGtextThis thesis discusses the effect of initial particle size and alloying of Pt nanocatalysts on the degradation of Proton Exchange Membrane Fuel Cells (PEMFC). Platinum nanocatalysts with initial particle sizes of 2.2nm, 3.2nm, 5.0nm, 6.7nm and 11.3nm were studied, before and after potential cycling. The two smallest initial particle sizes show significant degradation, while the remainder of the samples show negligible degradation after 10,000 cycles. Among the possible degradation mechanisms operating, the results show that dissolution and re-precipitation is insignificant among all the samples. On the other hand, modified electrochemical Ostwald ripening (MEOR) is the main cause for particle growth and degradation of the Pt nanocatalyst...
We provide a comprehensive durability assessment dedicated to a promising class of electrocatalysts ...
Platinum- and platinum-alloy-based electrocatalysts are the key component of the state-of-the-art pr...
Knowledge of degradation pathways of catalyst/support ensembles aids the development of rational str...
textThis thesis discusses the role of initial particle size on the mechanisms of surface area loss o...
The goal of this PhD research is to fundamentally understand the degradation mechanisms and durabili...
Fuel cells are one of the promising energy-conversion devices due to their high efficiency and zero ...
Five membrane-electrode assemblies (MEAs) with different average sizes of platinum (Pt) nanoparticle...
We demonstrate the unprecedented proton exchange membrane fuel cell (PEMFC) performance durability o...
Electrochemical measurements showed an ≈75% Pt surface area loss and an ≈40% specific activity loss ...
In this thesis, I discuss a novel idea of fuel cell catalyst regeneration to increase lifetime of th...
Governments and industries are pursuing the use of green hydrogen to achieve zero emissions, especia...
The initial performance and decay trends of polymer electrolyte membrane fuel cells (PEMFC) cathodes...
The main objective of this work has been to develop the understanding of the effect of Pt particle d...
Nano-sized Pt particles in the cathode catalyst layer of a polymer electrolyte fuel cell afford a hi...
Platinum nanoparticles, which are used as catalysts in Proton Exchange Membrane Fuel Cells (PEMFC), ...
We provide a comprehensive durability assessment dedicated to a promising class of electrocatalysts ...
Platinum- and platinum-alloy-based electrocatalysts are the key component of the state-of-the-art pr...
Knowledge of degradation pathways of catalyst/support ensembles aids the development of rational str...
textThis thesis discusses the role of initial particle size on the mechanisms of surface area loss o...
The goal of this PhD research is to fundamentally understand the degradation mechanisms and durabili...
Fuel cells are one of the promising energy-conversion devices due to their high efficiency and zero ...
Five membrane-electrode assemblies (MEAs) with different average sizes of platinum (Pt) nanoparticle...
We demonstrate the unprecedented proton exchange membrane fuel cell (PEMFC) performance durability o...
Electrochemical measurements showed an ≈75% Pt surface area loss and an ≈40% specific activity loss ...
In this thesis, I discuss a novel idea of fuel cell catalyst regeneration to increase lifetime of th...
Governments and industries are pursuing the use of green hydrogen to achieve zero emissions, especia...
The initial performance and decay trends of polymer electrolyte membrane fuel cells (PEMFC) cathodes...
The main objective of this work has been to develop the understanding of the effect of Pt particle d...
Nano-sized Pt particles in the cathode catalyst layer of a polymer electrolyte fuel cell afford a hi...
Platinum nanoparticles, which are used as catalysts in Proton Exchange Membrane Fuel Cells (PEMFC), ...
We provide a comprehensive durability assessment dedicated to a promising class of electrocatalysts ...
Platinum- and platinum-alloy-based electrocatalysts are the key component of the state-of-the-art pr...
Knowledge of degradation pathways of catalyst/support ensembles aids the development of rational str...