BOTHELL, USA: NEAH Power Systems will present its disruptive and unique methanol-nitric fuel cell, funded by the Office of Naval Research, at the 11th Electrochemical Power Sources R&D Symposium beginning today in Baltimore, MD.
Attendees include representatives from all branches of the military, as well as many leaders from the civilian energy sector.
Dr. Tsali Cross, VP of Engineering at NEAH Power, will describe NEAH's Development and characterization of porous silicon based methanol-nitric fuel cell prototype systems for portable military applications at the Power Sources Symposium. The presentation summarizes NEAH's research and development on anaerobic fuel cells.
"We are very grateful to the ONR for their generous support of the anaerobic direct methanol fuel cell project over the past year and we are happy to showcase our findings at this prestigious conference. The anaerobic fuel cell system will serve as the foundation for numerous fuel cell products," Dr. Chris D'Couto, NEAH's President and Chief Executive Officer, noted.
Showing posts with label fuel cells. Show all posts
Showing posts with label fuel cells. Show all posts
Tuesday, July 14, 2009
Thursday, July 9, 2009
NEAH's first hybrid electrolyte aerobic direct methanol fuel cell
BOTHELL, USA: NEAH Power Systems Inc., the company developing fuel cells for the military and portable electronic devices, announced that it has achieved yet another major breakthrough with the demonstration of an air based fuel cell for aerobic applications.
This system, when fully developed, is expected to have higher energy density than any incumbent direct methanol anaerobic fuel cell available today, and could enable NEAH to pursue various additional consumer markets.
"This technology is differentiated in performance and architecture," said Dr. Chris D'Couto, NEAH's President and Chief Executive Officer, "in that it combines NEAH's unique liquid electrolyte and 3D silicon electrode technology, with the manifold inherent benefits in cost and manufacturability of integrated circuit manufacturing, with proton conduction membrane for proton conduction and gas liquid separation.
"In so doing, NEAH has created the first hybrid electrolyte fuel cell achieving gains over either liquid or solid electrolyte technology. Our micro fuel cells may eventually replace batteries for most uses."
On June 25, 2009, NEAH revealed it had successfully tested an anaerobic (or non-air breathing) direct methanol fuel cell which was primarily funded by the Office of Naval Research.
This system, when fully developed, is expected to have higher energy density than any incumbent direct methanol anaerobic fuel cell available today, and could enable NEAH to pursue various additional consumer markets.
"This technology is differentiated in performance and architecture," said Dr. Chris D'Couto, NEAH's President and Chief Executive Officer, "in that it combines NEAH's unique liquid electrolyte and 3D silicon electrode technology, with the manifold inherent benefits in cost and manufacturability of integrated circuit manufacturing, with proton conduction membrane for proton conduction and gas liquid separation.
"In so doing, NEAH has created the first hybrid electrolyte fuel cell achieving gains over either liquid or solid electrolyte technology. Our micro fuel cells may eventually replace batteries for most uses."
On June 25, 2009, NEAH revealed it had successfully tested an anaerobic (or non-air breathing) direct methanol fuel cell which was primarily funded by the Office of Naval Research.
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