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A New Composite Proton Exchange Membrane--Lynntech, Inc., 7610 Eastmark Drive, Suite 202, College Station, TX  77840-4023; 979-693-0017, www.lynntech.com
Dr. Tim Wharton, Principal Investigator, tim.wharton@lynntech.com 
Dr. G. Duncan Hitchens, Business Official, duncan.hitchens@lynntech.com 
DOE Grant No. DE-FG02-03ER83705
Amount:  $100,000

Because they produce clean power and have no moving parts, proton exchange membrane (PEM) fuel cells have great potential as a source for clean, renewable power.   However, one of the current limitations of fuel cell technology is the requirement that the PEMs maintain a high level of hydration.  Moisture-free conditions result in a loss of the PEM’s ability to conduct protons, accompanied by a loss of power.  This project will develop a nanomaterial-based, dry-proton-conducting membrane, suitable for use in PEM fuel cells.  The membrane will have an advantage over more familiar all-polymer membranes because of its innate ability to operate in a water-free atmosphere.  Phase I will demonstrate the feasibility of operating a PEM fuel cell stack in the absence of added moisture and at temperatures greater than 150ºC.  Specific objectives include: (1) synthesizing nanomaterial-based materials, (2) fabricating  proton-conducting nanomaterial-based composite membranes, (3) determining the physicochemical properties of the fabricated composite membranes, and (4) evaluating the performance of selected composite membranes in a single-cell PEM fuel cell.

Commercial Applications and Other Benefits as described by the awardee:  The technology should increase the applicability of fuel cells as portable power supplies for laptop computers and cell phones, public and private transportation power supplies, home/community power generation, portable generators, and ultra-compact power sources for military personnel.