Development of highly efficient electrocatalysts for selective electroreduction of nitrate is of
great significance. In this work, the ultrathin intermetallic platinum-tellurium metallene (PtTe …

As the cleanest energy source, hydrogen has been followed with interest by researchers
around the world. However, due to the internal low density of hydrogen, it cannot be stored …

Recent results on the formic acid oxidation reaction on platinum electrodes, especially those
obtained for platinum single crystal electrodes are reviewed. With all the available data, a …

Platinum is the most effective metal for a wide range of catalysis reactions, but it fails in the
formic acid electrooxidation test and suffers from severe carbon monoxide poisoning …

Formic acid is a liquid, safe, and energy-dense carrier for fuel cells. Above all, it can be
sustainably produced from the electroreduction of CO2. The formic acid market is currently …

Varying the solution pH not only changes the reactant concentrations in bulk solution but
also the local reaction environment (LRE) that is shaped furthermore by macroscopic mass …

Heterogeneous catalysis of formic acid dehydrogenation at room temperature is a promising
tactic for safely storing and producing H2 as an efficient energy carrier. Up to now, the …

Investigation of electrocatalytic reactions and processes at molecule level is of essential
importance in the successful development of electrocatalyst. It is critical to understand the …

Spreading the formic acid (HCOOH) fuel cells demands a better anode electrocatalyst for the
oxidation of formic acid. The catalytic efficiency of platinum (Pt)–the only choice of …

Pt-metal oxide nanocomposites are classified as an alternative promising catalyst besides Pt-
Ru nanoalloys for electrochemical methanol oxidation reaction (MOR), and yet the relevant …