A team led by scientists at the National Graphene Institute (NGI) at The University of Manchester has developed the first ...

A new breakthrough is transforming MXenes—ultra-thin, high-tech materials—into something far more powerful and precise.

Research shows that a copper(II) complex monolayer on graphene maintains strong antiferromagnetic order, key to advancing ...

Hygiene in everyday items that touch the body—such as clothing, masks, and toothbrushes—is critically important. The underlying principle of how graphene selectively eliminates only bacteria has now ...

From skyscrapers to massive bridges, I-beams help engineers build stronger structures with less material. Their distinctive shape is designed to handle bending loads as efficiently as possible.

Researchers have built working transistors from graphene nanoribbons less than a nanometer wide, achieving room-temperature switching performance that silicon struggles to match at similar scales. The ...