Keywordscarbon-supported Pt catalysts; PEM fuel cells; dispersion; catalyst synthesis; carbon xerogel; electrocatalysts; oxygen reduction reaction; fuel cell; nanoparticles preparation; water in oil microemulsion; platinum; palladium; PdCu alloy nanocubes; N-doped graphene; ethanol oxidation; direct ethanol fuel cells; electrochemical oxidation of carbon; core-shell Pt(Cu) nanoparticles; core-shell Pt-Ru(Cu)nanoparticles; Pt deposition by galvanic exchange; Ru spontaneous deposition; hydrogen adsorption/desorption; CO oxidation; XPS; HRTEM; Pt3Co catalyst; PEM fuel cells; in-cell performance; catalyst durability; non-PGM catalyst; proton exchange membrane fuel cell (PEMFC); oxygen reduction reaction (ORR); zeolitic imidazolate framework (ZIF); titanium carbide; polymer electrolyte fuel cell; cathode catalyst; oxygen reduction reaction; corrosion-resistant catalyst support; phosphorus and nitrogen dual doped; graphene; carbon catalyst; fuel cell; oxygen reduction reaction; hollow porous Pd nanospheres; polyallylamine hydrochloride; sacrificial SiO2 nanoparticles; formic oxidation reaction; direct methanol fuel cells; methanol oxidation; oxygen reduction reaction; dealloying; nanoporous alloys; Pt-Mn alloy; additive; heat treatment; ethanol oxidation; catalysts; PEM fuel cell; direct alcohol fuel cell; ammonia-activation; electrocatalysis; fuel cells; nitrogen-doped mesoporous carbon; oxygen reduction reaction; oxygen reduction reaction; proton exchange membrane fuel cells; mesoporous carbon; transmission electron tomography; Pt/C catalysts; Tafel slopes; ethylene glycol; PdW/C; catalyst; ethanol oxidation; fuel cells; oxygen reduction reaction; electrocatalytic activity; iron selenide catalysts; F/N/C electrocatalysts; oxygen reduction reaction; fuel cells; Fe-based active sites; DFT; core-shell catalyst; electronic structure; polyaniline; cetyl trimethyl ammonium bromide; micelle; semi-tubes; oxygen reduction reaction; non-precious metal catalyst; heat-treatment; oxygen reduction reaction; alkaline medium; solvothermal synthesis; fuel cells; catalyst; palladium; reduced graphene oxide; phosphomolybdic acid; electrodeposition; methanol electrocatalytic oxidation; titanium-niobium oxides; oxygen reduction reaction; polymer electrolyte fuel cells; non-platinum cathode; nickel nitride; ORR; electrocatalyst; core-shell; stability; Pt monolayer; metal organic framework; electrocatalysis; fuel cell; oxygen reduction; non precious metal; templating; oxygen reduction reaction; Pd nanoparticle; Pd core/Pt shell; carbon monoxide; formic acid oxidation; palladium; Sb modification; mimetic underpotential deposition; rotating disk electrode; platinum nanoparticles; hybrid support; manganese oxides; methanol oxidation reaction (MOR); CO stripping; fuel cells; ceramic support; durability; corrosion resistance; nanoalloys; electrocatalysts; oxygen reduction reaction; phase structure; alloying degree; electrocatalytic activity; ethanol; electrocatalysts; electro-oxidation; mechanism; rational design; nitrogen-doped carbon nanotubes; nitrogen-doped graphene; metal-free catalysts; ORR; carbon nanofibers; carbon corrosion; fuel cell; oxygen reduction reaction; durability; Pt catalyst; indole-6-carboxylic acid; 3,4-ethylenedioxythiophene; copolymer; methanol; electrocatalyst; high temperature PEMFC; Reactive Spray Deposition Technology; phosphoric acid; coated film model; n/a
