The new electrode design overcomes the low electrical conductivity issue of (oxy)hydroxide catalysts, improving hydrogen and oxygen evolution reactions. The electrode combines metallic nickel-tungsten ...

Hydrogen production through electrochemical water splitting powered by renewable electricity is a critical process for building a sustainable hydrogen ...

Hydrogen is at the heart of the transition to carbon neutrality, as both an energy carrier and a reagent for green chemistry.

Dr. Ji-Hyung Han’s research team from the Convergence Research Center of Sector Coupling & Integration at the Korea Institute of Energy Research (President Yi, Chang-Keun, hereinafter “KIER”) has ...

AI technique developed to rapidly identify high-performance, platinum-group-free electrode materials for water electrolysis, crucial for green hydrogen production. New electrocatalytic materials found ...

Proton exchange membrane water electrolysis (PEMWE) is promising due to its high energy efficiency and hydrogen purity. However, as the practical application of the PEMWEs usually runs at high current ...

Furuya Metal Co., Ltd. and Asahi Kasei Corp. have, in collaboration with Nobian Industrial Chemicals B.V. and Mastermelt Ltd, embarked on a demonstration trial regarding the recycling of metals used ...

Green hydrogen production technology, which utilizes renewable energy to produce eco-friendly hydrogen without carbon emissions, is gaining attention as a core technology for addressing global warming ...

Gwangju Institute of Science and Technology researchers have now designed an electrode with Schottky Junction formed at the interface of metallic Ni-W5N4 and semiconducting NiFeOOH. The design ...