A new ion exchange membrane for redox flow batteries designed by researchers at the Imperial College in London in collaboration with teams at Dalian Institute of Chemical Physics (DICP) and industry ...

Molecular engineering of a zinc battery co-solvent improves plating stability, suppresses side reactions, and delivers near-perfect efficiency through a single functional group substitution. (Nanowerk ...

Important everyday products—from plastics to detergents—are made through chemical reactions that mostly use precious metals such as platinum as catalysts. Scientists have been searching for more ...

Chemical engineers develop problem-solving skills, with a strong foundation in science, engineering, and mathematics that touch every aspect of our lives–from smaller, faster computer chips to ...

Solvent design and molecular engineering merge advanced computational techniques with fundamental chemical principles to develop solvents tailored for optimised performance across diverse industrial ...

Medical molecular engineering harnesses cutting‐edge techniques to design, modify and integrate nucleic acids and proteins for advanced diagnostics and therapeutics. By applying principles from ...

Over time, scar tissue slows or stops implanted bioelectronics. But new interdisciplinary research could help pacemakers, sensors and other implantable devices keep people healthier for longer. In a ...

Environmental pollution and resource depletion have intensified due to rapid industrialization, urban expansion, and increasing consumption of natural ...

Explore why George E. Davis is called the father of chemical engineering, his contributions and how this discipline evolved.

The undergraduate minor in chemical engineering provides students with a broad energy and materials education while still allowing them to delve into bio-focused topics. This program will prepare ...