For the circular economy approach to wastewater treatment, recycling dye-contaminated wastewater while simultaneously producing green hydrogen (H 2) is deemed appropriate …
M Molaei, M Atapour - Sustainable Materials and Technologies, 2024 - Elsevier
The development of renewable and clean sources of energy, such as hydrogen, to address the energy shortages and environmental concerns caused by fossil fuels, is a well …
Recently, there has been a huge research interest in developing robust, efficient, low-cost, and earth-abundant materials for water and urea electrolysis for hydrogen (H2) generation …
We report the simple method of fabrication, self-supported nanostructure of Cosingle bondPsingle bond O nanoparticles (NPs) on carbon cloth scaffold by electroless plating. Co …
Z Yu, G D'Olimpio, H Huang, CN Kuo… - Advanced Functional …, 2024 - Wiley Online Library
Seawater electrolysis (SWE) is proposed to be a promising approach to green hydrogen (H2) production but its large‐scale deployment faces challenges because of the anodic …
In this study, we present self-supported vanadium-doped copper sulfide (Cu 2 S) electrodes as effective catalytic network for alkaline water electrolysis. The electrodes demonstrate a …
Abstract Development of Nano-heterostructures based on transition metal chalcogenides is promising strategy to accelerate the catalytic performance for hydrogen evolution reaction …
The dual-purpose treatment of effluents with simultaneous green hydrogen (H 2) generation represents an optimal synergy, addressing environmental concerns through effective …
In addressing the challenging quest for an efficient electrocatalyst in electrochemical water splitting, we demonstrate an Fe-doped NiO nanosheet array anchored on nickel foam …