Metal‐Organic Frameworks Based Porous Carbons for Oxygen Reduction Reaction Electrocatalysts for Fuel Cell Applications

“…Metal–organic frameworks are very promising materials for important applications, such as in luminescence, optical sensors, and NLO materials. − Owing to the versatility, including porosity, surface area, electrochemical stability, and good electrical conductivity, of metal–organic framework-derived nanostructured carbon, it is reported as a good functional support for precious metal nanoparticles and alloys of nanoparticles to provide excellent electrocatalytic activity during electrochemical catalysis reactions. − These carbon-supported electrocatalysts have performed well in many electrocatalytic applications, such as the hydrogen evolution reaction, direct-methanol fuel cells, alkaline and acidic fuel cells, dehydrogenation processes for hydrazine, and oxidation of formic acid. − , …”

Pt-Ni@PC900 Hybrid Derived from Layered-Structure Cd-MOF for Fuel Cell ORR Activity

“…Metal–organic frameworks are very promising materials for important applications, such as in luminescence, optical sensors, and NLO materials. − Owing to the versatility, including porosity, surface area, electrochemical stability, and good electrical conductivity, of metal–organic framework-derived nanostructured carbon, it is reported as a good functional support for precious metal nanoparticles and alloys of nanoparticles to provide excellent electrocatalytic activity during electrochemical catalysis reactions. − These carbon-supported electrocatalysts have performed well in many electrocatalytic applications, such as the hydrogen evolution reaction, direct-methanol fuel cells, alkaline and acidic fuel cells, dehydrogenation processes for hydrazine, and oxidation of formic acid. − , …”

Pt-Ni@PC900 Hybrid Derived from Layered-Structure Cd-MOF for Fuel Cell ORR Activity

Blocky electrode prepared from nickel-catalysed lignin assembled woodceramics