Extended Platinum Nanotubes as Fuel Cell Catalysts: Abstract No. ENFL-148

Research output: Contribution to conferencePaper

Abstract

Energy consumption has relied principally on fossil fuels as an energy source; fuel cells, however, can provide a clean and sustainable alternative, an answer to the depletion and climate change concerns of fossil fuels. Within proton exchange membrane fuel cells, high catalyst cost and poor durability limit the commercial viability of the device. Recently, platinum nanotubes (PtNTs) were studiedas durable, active catalysts, providing a platform to meet US Department of Energy vehicular activity targets.[1] Porous PtNTs were developed to increase nanotube surface area, improving mass activity for oxygen reduction without sacrificing durability.[2] Subsurface platinum was then replaced with palladium, forming platinum-coated palladium nanotubes.[3] By forming a core shell structure,platinum utilization was increased, reducing catalyst cost. Alternative substrates have also been examined, modifying platinum surface facets and increasing oxygen reduction specific activity. Through modification of the PtNT platform, catalyst limitations can be reduced, ensuring a commercially viable device.
Original languageAmerican English
StatePublished - 2012
EventAmerican Chemical Society. 244th ACS National Meeting - Philadelphia, Pennsylvania
Duration: 19 Aug 201223 Aug 2012

Conference

ConferenceAmerican Chemical Society. 244th ACS National Meeting
CityPhiladelphia, Pennsylvania
Period19/08/1223/08/12

NREL Publication Number

  • NREL/CP-5600-56574

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