New IKV foaming process reduces part density and is more environmentally friendly than alternatives.

New IKV foaming process reduces part density and is more environmentally friendly than alternatives.
Material investigated by USF and KAUST chemists could be a breakthrough in developing new tools for cleaner air and energy production.
This week, Professor Ozin defends that most maligned of molecules, carbon dioxide.
Greenhouse gas emissions are warming up the planet and scientists are turning their eyes to the sky to better track them down.
A closed-loop process for making and recycling polycarbonate plastic also captures carbon to reduce waste and cut emissions.
Scientists develop a light-driven carbon capture system using photoacids, creating an energy-efficient method to remove atmospheric carbon dioxide.
A renewable, carbon-based absorbent is challenging MOFs in carbon capture technology, offering sustainable solutions for emissions reduction.
Carbon credits are used by companies and corporations to offset greenhouse gas emissions, but are they simply an aid for greenwashing?
Carbon pricing has been highly criticized, but designing policies to address concerns can yield outcomes that are effective and equitable.
Molten salts are renowned for operating at high temperatures and are ideal as a new generation of carbon capture media.