Artificial intelligence is rapidly transforming chemical engineering by accelerating molecule design, optimizing reactions, and enabling real-time experimental control, while also introducing new cost ...

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 ...

Chemistry and chemical engineering have changed very significantly since they were last reviewed by committees of the U.S. National Research Council. They have broadened their scope—into biology, ...

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 ...

High-performance and low-cost oxygen reduction reaction (ORR) electrocatalysts are essential for the next generation of energy conversion devices, such as zinc-air batteries and fuel cells. While ...

Hermans focuses on finding cleaner, faster industrial practices that reduce the environmental impact of manufacturing and ...

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 ...

Solar cells, devices that can directly convert radiation emitted from the sun into electricity, have become increasingly widespread and are contributing to the reduction of greenhouse gas emissions ...

Reaction engineering plays a vital role in chemical transformations where raw materials are converted into value-added products such as fuels, commodity chemicals, and pharmaceuticals. Like many other ...

Computational Chemistry is the study of complex chemical problems using a combination of computer simulations, chemistry theory and information science. Also called cheminformatics, this field enables ...