Add to ORKGFormic acid oxidation was studied at low-index Pt single crystals (model systems) as well as at the platinum catalyst supported on high area carbon (real catalyst) in HClO4. The Pt single crystals were characterized by LEED. The LEED patterns obtained after a mild heating of flame-annealed crystals have shown clean, well ordered unreconstructured surfaces. Pt-C supported catalyst was analyzed by AFM and STM in air and by XRD. AFM and STM images revealed the presence of Pt-C agglomerates of several tenth of nm consisting of Pt particles ranged from 2 nm to 6 nm. The electrocatalytic activity of these catalysts in formic acid oxidation increased in a sequence: Pt(100) < Pt(110) < Pt-C/GC < Pt(111)
Electro-catalytic oxidation of formic acid has a significant importance in fundamental research of s...
In this work, we describe the use of several Pd-based catalysts for promotion of the oxidation of fo...
The formic acid oxidation reaction has been studied on Pt(111), Pt(100) and Pt nanoparticles with pr...
Due to their high electrocatalytic activity, Pt-based materials are widely investigated as electroca...
Due to their high electrocatalytic activity, Pt-based materials are widely investigated as electroca...
Due to their high electrocatalytic activity, Pt-based materials are widely investigated as electroca...
In this paper, we discuss the effects of catalyst load with respect to carbon powder for several Pt ...
This study examined the structural and electrocatalytic properties of polycrystalline, (111)- and (1...
This study examined the structural and electrocatalytic properties of polycrystalline, (111)- and (1...
The oxidation of formic acid and hydrogen adsorption have been measured on platinum single-crystal s...
Kinetics of the oxidation of formic acid depends strongly on the crystallographic orientation of the...
Kinetics of the oxidation of formic acid depends strongly on the crystallographic orientation of the...
Kinetics of the oxidation of formic acid depends strongly on the crystallographic orientation of the...
Kinetics of the oxidation of formic acid depends strongly on the crystallographic orientation of the...
Electro-catalytic oxidation of formic acid has a significant importance in fundamental research of s...
Electro-catalytic oxidation of formic acid has a significant importance in fundamental research of s...
In this work, we describe the use of several Pd-based catalysts for promotion of the oxidation of fo...
The formic acid oxidation reaction has been studied on Pt(111), Pt(100) and Pt nanoparticles with pr...
Due to their high electrocatalytic activity, Pt-based materials are widely investigated as electroca...
Due to their high electrocatalytic activity, Pt-based materials are widely investigated as electroca...
Due to their high electrocatalytic activity, Pt-based materials are widely investigated as electroca...
In this paper, we discuss the effects of catalyst load with respect to carbon powder for several Pt ...
This study examined the structural and electrocatalytic properties of polycrystalline, (111)- and (1...
This study examined the structural and electrocatalytic properties of polycrystalline, (111)- and (1...
The oxidation of formic acid and hydrogen adsorption have been measured on platinum single-crystal s...
Kinetics of the oxidation of formic acid depends strongly on the crystallographic orientation of the...
Kinetics of the oxidation of formic acid depends strongly on the crystallographic orientation of the...
Kinetics of the oxidation of formic acid depends strongly on the crystallographic orientation of the...
Kinetics of the oxidation of formic acid depends strongly on the crystallographic orientation of the...
Electro-catalytic oxidation of formic acid has a significant importance in fundamental research of s...
Electro-catalytic oxidation of formic acid has a significant importance in fundamental research of s...
In this work, we describe the use of several Pd-based catalysts for promotion of the oxidation of fo...
The formic acid oxidation reaction has been studied on Pt(111), Pt(100) and Pt nanoparticles with pr...