In most conventional semiconductors, thermal conductivity decreases as temperature rises because heat-carrying lattice vibrations—called phonons—scatter more frequently.

A study shows how high-thermal dielectrics outperform FR-4 for bulk heat spreading, with surface-mount thermal bridges ...

Scientists at Oak Ridge National Laboratory have found that applying an electric field to a specialized ceramic can nearly ...

Technical ceramics are used in many applications where traditional materials such as steel or plastic are ineffective or unsuitable. For many of these applications, extreme hardness, wear resistance, ...

By influencing how phonons travel through a crystal lattice, an electric field can begin shaping both the speed and direction of heat transport.

New research from the Department of Energy's Oak Ridge National Laboratory, in collaboration with The Ohio State University and Amphenol Corporation, challenges conventional understanding about ...

Using four-photon scattering, Purdue University researchers found that graphene's thermal qualities might not be as groundbreaking as first believed. Image Credit: Kateryna Kon/Shutterstock.com ...

Scientists have decoded how heat flows in magnetic semiconductors, materials that are critical to emerging technologies such as spintronics, magnetic memory, and quantum devices. The discovery ...

Thermal Conduction is a “hot” topic! Dr. Rob and the Crew explore how thermal energy is transferred and conserved in different environments. STEM Challenge: Making Thermal Oobleck Curious About ...