Electrocatalysis is at the center of many sustainable energy conversion technologies that are
being developed to reduce the dependence on fossil fuels. The past decade has witnessed …

Over the past few decades, the design and development of advanced electrocatalysts for
efficient energy conversion technologies have been subjects of extensive study. With the …

The development of an efficient catalyst for formic acid electrocatalytic oxidation reaction
(FAEOR) is of great significance to accelerate the commercial application of direct formic …

A wide variety of commodity chemicals can be produced from the catalytic oxidation of
carbohydrates or carbohydrate derived molecules including formic acid, acetic acid, glycolic …

The development of clean sustainable energy technologies has been significantly promoted
by advances in electrocatalysts, especially for low‐dimensional metallic nanomaterials …

Pillararene/calixarene-based functional materials have garnered significant attention for
their unique topological/chemical structures and physicochemical properties, and their …

The shift in the energy sector toward green resources makes fuel cells increasingly relevant
as a supplier of green and sustainable energy. However, factors such as expensive …

Recently, the development of high-performance non-platinum electrocatalysts for fuel cell
applications has been gaining attention. Palladium-based nanoalloys are considered as …

Recently, as electrocatalysts, high-entropy alloys (HEAs) have attracted extensive research
interest. In this study, a PdCuMoNiCo HEA with a nano-hollow spherical structure on RGO3 …

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 …