The advancement could mark a turning point in developing sustainable, compact energy sources for the rapidly growing network of IoT devices, offering high performance without the high costs or ...

Turning heat into electricity might sound like science fiction, but thermoelectric materials can do exactly that. These ...

The International Mineralogical Association (IMA) has officially recognised a new mineral – ehrigite – named after BHP ...

Scientists have found a clever way to double the efficiency of thermoelectric materials — those that convert heat into ...

China unveils a microscopic transistor that could quietly disrupt the global chip race. Built without silicon, this atom-thin ...

Our project focuses on analyzing how proteins assemble on membranes using Atomic Force Microscopy. With high-resolution, fast-scan Atomic Force Microscopy, we will directly visualize the structure and ...

A recent study1 by Dr. Fabian Garmroudi and a team of international researchers opens the door for one of the most ...

An international team has succeeded in producing new, efficient thermoelectric materials that could compete with state-of-the-art materials, offering greater stability and lower cost.

This work not only deepens our understanding of catalytic mechanisms at the atomic scale but also points the way toward more efficient carbon recycling systems. By identifying clear structure ...

School of Mechanical and Automotive Engineering, Clemson University, Clemson, South Carolina 29623, United States ...

A new mineral, ehrigite, has been named after BHP’s Kathy Ehrig, in recognition of her contributions to geology and geometallurgy.