Simulations by Rice University scientists show how carbon nanomaterials may be optimized to replace expensive platinum in cathodes for electricity-generating fuel cells for transportation and other applications. Credit: Yakobson Research Group/Rice University
Simulations by scientists show how carbon nanomaterials may be optimized to replace expensive platinum in cathodes for electricity-generating fuel cells. Nitrogen-doped carbon nanotubes, CNTs, or modified graphene nanoribbons may be suitable replacements for platinum for fast O2 reduction, the key reaction in fuel cells that transform chemical energy into electricity, according to Rice University researchers. Their study reveals the atom-level mechanisms by which doped nanomaterials catalyze oxygen reduction reactions (ORR).
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