Investigating clean and sustainable hydrogen generation from water splitting requires cost‐
effective and highly efficient electrocatalysts for the hydrogen evolution reaction (HER) …

This mini-review summarizes materials design methods, oxygen reduction kinetics,
tolerance to small organic molecules and fuel cell performance of chalcogenide metal …

Interface engineering is an effective strategy to regulate the oxygen adsorption strength and
accelerate the kinetics of oxygen evolution reaction (OER) catalyst by using the synergistic …

Selenium (Se) is an important element belonging to the chalcogen family. Electrochemistry
is of significant importance in various applications of Se and its compounds, ranging from …

Novel catalysts consisting of ruthenium nanoparticles encapsulated in cross‐linked matrices
based on the poly (propylene imine) dendrimers of the 1st and 3rd generations have been …

A major impediment to the commercialization of fuel cells is the low activity of
electrocatalysts for the oxygen reduction reaction that involves multiple electron transfer …

Transition metal dichalcogenides (TMDCs) have garnered much attention recently due to
their remarkable performance for different electrochemical systems. In this study, we report …

Surfaces of bulk platinum and unsupported (Vulcan-free) Pt nanoparticles, that are modified
and stabilized with such Keggin type heteropolyacids of molybdenum and tungsten as …

For efficient operation, mixed-reactant fuel cells utilise highly selective anode and cathode
electrocatalysts. While platinum and its alloys are the most widely used ORR electrocatalysts …

Selenium is a non-metallic element of group IV, with relatively small electronegativity and
high conductivity. Metal selenides show good capacitive properties, and the capacitive …