Chemists from ETH Zurich have found a way to produce poorly soluble proteins by caging a uniquely reactive boron compound. This method opens up new possibilities for the synthesis of tailored protein ...

Sometimes, less really is more. By removing oxygen during synthesis, a team led by materials scientists at Penn State has created seven new high-entropy oxides (HEOS), a class of ceramics composed of ...

Artificial intelligence (AI) is transforming the way scientists discover and design new materials. In a specially invited review published in Angewandte Chemie International Edition, Tohoku University ...

Chris Uyeda, H. C. Brown Professor of Chemistry, has been honored with the prestigious College of Science Faculty Research Award. This accolade recognizes his exceptional contributions to the field of ...

Penn State researchers created seven new high-entropy oxides by removing oxygen during synthesis, enabling metals that normally destabilize to form rock-salt ceramics. Machine learning helped identify ...

Inside every cell, a finely tuned metabolic network determines when to build, recycle, or stop producing essential molecules. A central part of this network is folate metabolism, a process that ...

Three of the seven newly synthesized high-entropy oxide ceramic pellets are pictured here. UNIVERSITY PARK, Pa. — Sometimes, less really is more. By removing oxygen during synthesis, a team led by ...