Proton Transport in Metal/Ceramic Membranes @ Colorado School of Mines

Author(s): R. O'Hayre, N. Sammes, M. Lusk, W. Medlin, A. Bunge Renewable Energy MRSEC, NSF DMR-0820518

Researchers at the Colorado School of Mines and their colleagues are developing a composite material to vastly increase the rate of proton conduction through ceramics. Nanosized metal particles, embedded within a ceramic, generate an electronic space charge layer at metal/ceramic interfaces. Based on the theory that protons move quickly through such regions, composite materials have been designed in which the space charge layers are interconnected. This results in an entirely new form of proton conductor which could be a boon to fuel cell technology.

More details on Center's website