Caltech scientists have developed an artificial intelligence (AI)–based method that dramatically speeds up calculations of ...

Graphene is stronger than steel and a better conductor that copper, making the two-dimensional material of particular ...

The transverse Thomson effect is observed for the first time: current, heat, and magnetic fields generate controlled cooling ...

For the first time, scientists have observed electrons in graphene behaving like a nearly perfect quantum fluid, challenging ...

Electrons in graphene can act like a perfect fluid, defying established physical laws. This finding advances both fundamental science and potential quantum technologies. For decades, quantum ...

The prototype delivered 13 per cent conversion efficiency, which, in simple terms, meant that with the prototype, for every ...

An optical image showing a hBN aerogel sample resting on the stamen of a flower. (Credit: X Xu and X Duan) A new mechanically strong, double-pane ceramic aerogel made from hexagonal boron nitride that ...

A high-resolution TEM image of the nanoparticles studied in this work. Courtesy: J Belo Most materials expand when they are heated up and contract when cooled down – a phenomenon known as positive ...

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 ...

Engineers have developed HADAR, or heat-assisted detection and ranging. Researchers at Purdue University are advancing the world of robotics and autonomy with their patent-pending method that improves ...

Report by BC Professor of Physics David Broido and international colleagues confirm high thermal conductivity predicted for isotopically enriched cubic boron nitride Research by Professor of Physics ...