The great dependence of the electrocatalytic activity of most electrochemical reactions on
the catalytic surface area and specific surface structure is widely accepted. Building on the …

The reactions of electrooxidation of methanol and formic acid pertain to the most important
model electrocatalytic processes and are used in direct low-temperature fuel cells. The …

Formic acid as a natural biomass and a CO2 reduction product has attracted considerable
interest in renewable energy exploitation, serving as both a promising candidate for …

Engineering the catalytic performance of nanozymes is of vital importance for their broad
applications in biological analysis, cancer treatment, and environmental management …

The engineered search for new catalysts requires a deep knowledge about reaction
mechanisms. Here, with the support of a combination of computational and experimental …

The application of shape-controlled metal nanoparticles is profoundly impacting the field of
electrocatalysis. On the one hand, their use has remarkably enhanced the electrocatalytic …

Ethanol oxidation on different shape-controlled platinum nanoparticles at different pHs was
studied using electrochemical, Attenuated Total Reflection-Fourier Transform Infrared …

High catalytic activity for formic acid oxidation reaction (FAOR) is demonstrated in Pb
modified shape-controlled Pt nanoparticles (NPs). Cyclic voltammetry is used to follow the …

Engineering metallic nanoparticles constitutes a powerful route to design next-generation
electrocatalysts to be used in future energy and environmental industries. In this mini review …

Palladium nanotubes (PdNTs) were synthesized by templated vapor deposition and
investigated for formic acid electrooxidation. Annealed PdNTs are 2.4 times more active …