Industrial heating powers everything from chemical production to large-scale manufacturing. Yet most facilities still ...

Photocatalysis promises an efficient conversion of abundant solar energy into usable chemical energy. Polyheptazine imides ...

For a long time, titanium was a forgotten frame material due to the explosion of carbon. But over the last few years, we’ve seen an upsurge in titanium road and gravel bikes.

A cross-disciplinary team at Rice University has developed a new type of electric heating element—one that looks less like a ...

The process developed by Dioxycle uses carbon electrolysis to convert industrial carbon monoxide or carbon dioxide emissions into ethylene.

The European Space Agency and a series of European companies are working on a new breed of carbon fiber meant to help spacecraft repair themselves.

New research shows 2D carbon materials can store electrical states, reshaping how AI chips manage power and lower electricity ...

Sustainability and heavy manufacturing have long had a strained relationship, shaped by scale, cost pressures and the ...

Water adsorption on carbon materials is a multifaceted phenomenon that underpins a wide array of applications ranging from environmental remediation to energy storage. Recent investigations have ...

Korean firms collaborate on chemical decomposition technology that recovers carbon fibers with 95.7% efficiency for global ...

Carbon materials produced from coal tar and petroleum pitch have aroused considerable interest over recent decades owing to their versatile applications and the relative abundance of their precursors.

Construction is on its way to becoming greener. New research describes a method of creating building material that is not only carbon-neutral — meaning it does not produce any carbon emissions — but ...