The Korea Research Institute of Standards and Science has successfully developed a nanomaterial capable of simultaneously ...

Companies building next-generation products and breakthrough technologies are often limited by the physical constraints of ...

This review examines AI and ML's role in transforming thermoelectric materials design, focusing on defect engineering and ...

Once considered merely insulating, a change in the angle between silicon and oxygen atoms opens a pathway for electrical charge to flow. A breakthrough discovery from the University of Michigan has ...

A team of engineers and material scientists in the Paul M. Rady Department of Mechanical Engineering at CU Boulder has developed a new technology to turn thermal radiation into electricity in a way ...

Scaling down materials dimensions at the nanoscale (1–100 nm) allows for the exploration of extraordinary physical properties not exhibited at the macro- or micro-scale, such as superparamagnetism and ...

The complex of buildings includes a new Physical Sciences and Engineering Building (PSEB), an Advanced Instrumentation Design Center, a “clean room” located within PSEB for specialized experiments, an ...

AI method radically speeds predictions of materials' thermal properties The approach could help engineers design more efficient energy-conversion systems and faster microelectronic devices ...

Geosynthetics are used in a variety of sectors, from transportation to infrastructure to environmental protection. Despite their importance in civil engineering designs, their chemical and physical ...

Finally, the lamina properties are upscaled into composite laminate applied to an intended physical system application. Download the white paper: “ Closing the Gap Between Material Discovery and ...