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Company USA
The company has developed a carbon aerogel based electrocatalyst for use in the manufacturing of fuel cell electrodes. The catalyst can reduce the platinum requirements for fuel cell vehicles to approximately 30% of current levels while improving performance.
There are three major types of aerogels: inorganic, organic and carbon aerogels. Inorganic aerogels are obtained by supercritical drying of highly cross-linked and transparent hydrogels synthesized by polycondensation of metal alkoxides. Silica aerogels are the most well known inorganic aerogels. Organic aerogels are synthesized by supercritical drying of the gels obtained by the sol-gel polycondensation reaction of resorcinol with formaldehyde in aqueous solutions. Carbon aerogels are prepared by pyrolyzing such organic aerogels in an inert atmosphere. Incorporation of additives into aerogels results in materials that are called aerogel composites. The role of the additives is to enhance the properties of pure aerogels or to impart additional desirable properties depending on the application.
The company has developed proprietary nanotechnology for the preparation of aerogel composites for a wide variety of applications. Our flagship product is a platinum loaded carbon aerogel nanocomposite for use as an electrocatalyst in polymer electrolyte membrane fuel cells. Below is a graphic depicting the process of aerogel formation using sol-gel technology.
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