Materials called relaxor ferroelectrics have been used for decades in technologies like ultrasounds, microphones, and sonar ...

The study, published in Nature Communications, shows that interfacial polarization can shift the surface work function of ...

A new study reveals how nanometer-scale thickness and interfacial polarization can control metal electronics without changing ...

A total of 962 metres were completed across four (4) reconnaissance drill holes at the Upper Prawn Lake, Southside, and Crab ...

A long-standing mystery in materials science is beginning to unravel as researchers directly probe the hidden atomic ...

For decades, relaxor ferroelectrics have powered everything from medical ultrasounds to sonar systems, yet their inner atomic ...

Researchers from MIT and collaborating institutions have, for the first time, directly measured the ...

A small shift in how metal atoms are arranged can change how electricity moves through them, pointing to new ways to build ...

A nanocrystal is an extraordinarily tiny piece of material—composed of anywhere from a few to a few thousand atoms—in which ...

University of Minnesota researchers have discovered a way to precisely control a metal’s electronic properties by stabilizing polarization at its atomic interfaces. By adjusting a ruthenium dioxide ...

For the first time, researchers directly characterized the 3D atomic structure of a relaxor ferroelectric, a class of ...

Materials called relaxor ferroelectrics have been used for decades in technologies like ultrasounds, microphones, and sonar ...