All engineers are familiar with the chemical, mechanical and physical properties of the materials that they work with. But ...

The development of new biomedical materials, scaffolds for tissue engineering, and synthetic and hybrid materials has enabled the design and optimization of new medical products that exhibit improved ...

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 ...

Process Engineering encompasses the analysis, modeling, simulation, optimization, design, control and operation of process systems, from micro-sized systems to huge industrial facilities. Many ...

Opportunities and challenges in data-driven chemical engineering thermodynamics, statistical mechanics and molecular simulation are discussed, and new possibilities offered by machine learning in ...

A platform to engineer enzymes responsible for the formation of amide bonds as an effort toward developing biocatalysts for green chemistry. Amide bonds — a type of chemical bond formed between a ...

Researchers at the Federal Institute for Materials Research and Testing (BAM) outline in a perspective paper how high-performance materials for batteries, hydrogen technologies, wind turbines, energy ...

Molecular rings reveal how hidden chain length controls stiffness, toughness and elasticity, offering a blueprint for tunable ...

Chemical engineers are the brains behind many of today’s essential products and materials. They turn crude oil, biological materials, metals and waste materials into usable products like gasoline, ...