As demand for energy-intensive computing grows, researchers at the Department of Energy's Oak Ridge National Laboratory have ...

The mechanism that stabilizes new ferroelectric semiconductors also creates a conductive pathway, which could make them ...

Scientists have developed a tool that reveals how microscopic domain walls shift in ferroelectric materials, helping design ...

ORNL develops new imaging method to study domain walls in ferroelectric materials, aiding energy-efficient electronics.

The technique captures both the tiny, repeated movement of domain walls as they react to changes in their environment — such ...

Automotive Sensors Market The automotive sensors market is growing rapidly, driven by ADAS, electrification, safety mandates, and autonomou ...

This artist's rendering depicts a cantilever's sharp tip in an atomic force microscope scanning a material's surface to ...

From 2D materials to self-healing systems, here’s how advanced materials are reshaping how we capture and use ambient energy.

Proprioception only gets you so far. In designs like those of Malik’s team, the “egocentric” camera plays an important role ...

Discover how scientists program nanomaterials to react to environmental triggers, leading to innovations in targeted drug ...

Quantum dots — which are tiny crystals of semiconducting material — offer a path forward in this field because different-size dots can be engineered to absorb different wavelengths. However, ...

RSA Cybersecurity Conference focused on anything AI and the latest advanced persistent threats, while leaving out discussions about control system field device ...