The use of glycine in a neutral solution enhances lithium extraction from spent batteries, offering a sustainable alternative ...

Innovative glass functionalization via ultrasonication creates stable Si–O–C bonds, addressing traditional method limitations ...

Researchers from Johannes Gutenberg University Mainz have developed water-splitting catalysts that are both cost-effective ...

Researchers from RMIT University and the University of Melbourne have discovered that water generates an electrical charge up to 10 times greater than previously understood when it moves across a ...

High entropy alloys, with unique compositions, enhance material performance, making them crucial for high-stress applications in aerospace and power generation.

A new Co2Mo3O8 catalyst from Tohoku University shows exceptional stability and efficiency in hydrogen production, advancing ...

This research details the wire arc additive manufacturing of super-invar alloy, focusing on microstructure and thermal ...

Detecting metal in poultry products is a major challenge due to their high conductivity, often resulting in false rejects and ...

Recent advancements in polyamide membranes enhance desalination, achieving faster water flow and improved salt rejection for ...

This innovative polymeric material features self-healing capabilities and superior recyclability, paving the way for ...

Nylon's role in lithium-metal batteries could transform energy storage, offering higher efficiency and safety, according to ...

The ETH Zurich study reveals an efficient method for breaking down Plexiglas, potentially transforming plastic recycling and ...