Water electrolysis is the most promising method for efficient production of high purity
hydrogen (and oxygen), while the required power input for the electrolysis process can be …

Fuel cells are electrochemical devices that convert chemical energy directly into electrical
energy with high efficiency. The high cost of platinum catalysts and sluggish reaction kinetics …

In this study, hydrogen evolution electrodes are prepared by a 3D printing method using
conductive PLA filament. To improve their conductivity and electrochemical performance …

Electrochemical remediation of ammonia-containing wastewater at low cell voltage is an
energy-effective technology which can simultaneously recover energy via hydrogen …

Water electrolysis is a promising approach to hydrogen production from renewable energy
sources. Alkaline water electrolyzers allow using non-noble and low-cost materials. An …

Alkaline exchange membrane fuel cells (AEMFCs), as an important clean energy conversion
technology, exhibit the possibility of employing complete platinum-group-metal-free …

Anion exchange membrane (AEM) electrolysis aims to combine the benefits of alkaline
electrolysis, such as stability of the cheap catalyst and advantages of proton‐exchange …

Structure effects of NiS and Ni3S2 nanoparticles were investigated for their electrocatalytic
activity in the hydrogen evolution reaction in both acid and alkaline media. Owing to the …

The development of cost effective catalysts with high activity and 100% selectivity for
hydrogen generation from the decomposition of hydrous hydrazine, a promising liquid …

NiW alloy catalysts were prepared on a Cu foil substrate by using a co-electrodeposition
method for use in the hydrogen evolution reaction (HER) in alkaline water electrolysis. The …