Add to ORKGthe effects of fuel and air impurities on fuel cell performance. Evaluate catalyst durability under the effects of impurities. Investigate the effect of impurities on fuel cell components other than the membrane electrode assembly. Find ways to mitigate negative effects of impurities. Demonstrate a method for cleaning sulfur-poisoned Pt catalysts. Quantify threshold levels of impurities
Fuel cells allow an environmentally friendly and highly efficiently conversion of chemical energy to...
• Understand and mitigate fuel cell failure mechanisms • Experimentally characterize membrane proper...
Platinum loading reduction in fuel cell stacks is necessary to commercialize fuel cell vehicles. Man...
A fuel cell is an electrochemical energy conversion device that produces electricity during the comb...
This dissertation describes experimental investigations on the contamination of polymer electrolyte ...
Fuel cell systems are being deployed in stationary applications for the generation of electricity, h...
This paper reviewed over 150 articles on the subject of the effect of contamination on PEM fuel cell...
Fuel cells allow an environmentally friendly and highly efficiently conversion of chemical energy to...
• Identify and quantify factors that limit polymer electrolyte membrane (PEM) fuel cell durability –...
Despite impressive developments in the technology of proton-exchange membrane fuel cells (PEMFCs), l...
<p>The effects of electrode parameters on membrane<br>electrode assembly performance including Pt lo...
Due to an increasing demand for environment-friendly power production, polymer electrolyte fuel cell...
Development of platinum group metal-free catalysts for polymer electrolyte membrane fuel cells is a ...
In this paper, we experimentally investigated two high temperature polymer electrolyte membrane fuel...
An increasing energy demand and the need to reduce greenhouse gas emissions promotes a need for sust...
Fuel cells allow an environmentally friendly and highly efficiently conversion of chemical energy to...
• Understand and mitigate fuel cell failure mechanisms • Experimentally characterize membrane proper...
Platinum loading reduction in fuel cell stacks is necessary to commercialize fuel cell vehicles. Man...
A fuel cell is an electrochemical energy conversion device that produces electricity during the comb...
This dissertation describes experimental investigations on the contamination of polymer electrolyte ...
Fuel cell systems are being deployed in stationary applications for the generation of electricity, h...
This paper reviewed over 150 articles on the subject of the effect of contamination on PEM fuel cell...
Fuel cells allow an environmentally friendly and highly efficiently conversion of chemical energy to...
• Identify and quantify factors that limit polymer electrolyte membrane (PEM) fuel cell durability –...
Despite impressive developments in the technology of proton-exchange membrane fuel cells (PEMFCs), l...
<p>The effects of electrode parameters on membrane<br>electrode assembly performance including Pt lo...
Due to an increasing demand for environment-friendly power production, polymer electrolyte fuel cell...
Development of platinum group metal-free catalysts for polymer electrolyte membrane fuel cells is a ...
In this paper, we experimentally investigated two high temperature polymer electrolyte membrane fuel...
An increasing energy demand and the need to reduce greenhouse gas emissions promotes a need for sust...
Fuel cells allow an environmentally friendly and highly efficiently conversion of chemical energy to...
• Understand and mitigate fuel cell failure mechanisms • Experimentally characterize membrane proper...
Platinum loading reduction in fuel cell stacks is necessary to commercialize fuel cell vehicles. Man...