The increasing complexity of modern chemical engineering processes presents significant challenges for timely and accurate anomaly detection. Traditional ...

Can the shape of a crystal really change how well it performs in clean energy technology? A new study says yes—decisively.

The pharmaceutical industry faces environmental challenges. Green chemistry offers sustainable solutions to reduce waste and enhance drug discovery processes.

EPFL researchers developed a scalable method for porous graphene membranes, enhancing CO2 capture efficiency and reducing ...

A new study introduces a compact, self-detecting dual-comb spectroscopy system using injection-locked QCLs, eliminating ...

Innovative membranes from the University of Michigan enhance desalination processes, reducing brine waste and energy ...

National University of Singapore (NUS) chemists have developed an "anchoring-borrowing" strategy, combined with facet ...

Innovative spray drying technology from KERI and KIMS enables high-capacity dry electrode manufacturing, significantly ...

Cellulose nanocrystals (CNCs) are strong, biodegradable, and derived from plant biomass. Explore how they’re made and their potential to replace fossil fuel–based plastics, packaging, and energy ...

Against this backdrop, a team of researchers, including members of UT's McKetta Department of Chemical Engineering and ...

Discover if Manchester is right for you with an online or in-person meeting. On the Chemical Engineering with an Integrated Foundation Year you are an undergraduate at The University of Manchester.

If you’re an engineering student looking for a laptop that can handle demanding course loads, you’ve come to the right place. These laptops offer fast performance as well as portable form ...