Judith Manco

TL;DR: In this article, the authors discuss the current limitations and recent work by Proton Energy Systems towards reaching the DOE Hydrogen Program objective for distributed production of hydrogen from distributed water electrolysis of $3.70/gge by 2012.

TL;DR: A non-precious metal cobalt phosphide hydrogen evolution catalyst is found to be active and durable in a commercial-scale polymer electrolyte membrane electrolyser, illustrating a potential pathway for non- precious hydrogen evolution catalysts developed in past decades to translate to commercial applications.

TL;DR: In this paper, a method of making an electrode decal, comprises forming a catalyst ink comprising a catalyst compound, a perfluorinated sulfonyl fluoride polymer, and an ester; disposing the catalyst ink on a decal; and drying the catalytic ink to form an electrode layer on the decal.

TL;DR: In this paper, Proton has established a technology roadmap to achieve the necessary cost reductions and manufacturing scale up to maintain U.S. competitiveness in these markets, which represents a highly successful example of the potential for cost reduction in PEM electrolysis, and provides the initial stack design and manufacturing development for Proton's MW scale product launch.

TL;DR: Iridium-based oxygen evolution catalysts are screened in this article for activity and stability in rotating disk electrode (RDE) half-cells with no knowledge of composition or synthesis conditions.