Silver-based nanoparticles with only 5 wt% Pd achieve competitive current densities and onset potentials for ethanol and glycerol electrooxidation compared to 20 wt% Pd/C, with Ag aiding durability via reduced byproduct adsorption.
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PdFe3O4/C achieves 1426 mA mg^{-1} Pd mass activity and 31 mW cm^{-2} power density in ADEFC tests while cutting Pd content by roughly 45% compared with commercial catalyst.
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Oxophilic Silver-Based Nanoparticles with Low Pd-Au Loading for Ethanol and Glycerol Electrooxidation in Alkaline Media
Silver-based nanoparticles with only 5 wt% Pd achieve competitive current densities and onset potentials for ethanol and glycerol electrooxidation compared to 20 wt% Pd/C, with Ag aiding durability via reduced byproduct adsorption.
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Fe3O4 nano-octahedra and SnO2 nanorods modifying low-Pd amount electrocatalysts for alkaline direct ethanol fuel cells
PdFe3O4/C achieves 1426 mA mg^{-1} Pd mass activity and 31 mW cm^{-2} power density in ADEFC tests while cutting Pd content by roughly 45% compared with commercial catalyst.