Scientists have developed a new microscope that significantly improves the way heat flow in materials can be measured. This advancement could lead to better designs for electronic devices and energy ...

Light exposure switches heat flow in barium titanate by altering its structure, offering a reversible method for dynamic thermal control in ferroelectric materials. (Nanowerk Spotlight) We can switch ...

Controlling the flow Vortex-induced heat backflow (top) in a simulated 2D graphite strip, compared with conventional heat flow (bottom). (Courtesy: 2026 THEOS EPFL CC BY SA) We are all familiar with ...

Researchers in the US have revealed that heat does not flow as expected between different materials when they are in a super-hot, ultra-dense state known as high-energy-density plasma. The experiment, ...

NIMS, in joint research with the University of Tokyo, AIST, the University of Osaka, and Tohoku University, have proposed a novel method for actively controlling heat flow in solids by utilizing the ...

Scientists in the United States have discovered an electric field method to improve heat flow in materials. The team from the Oak Ridge National Laboratory (ORNL), working with scientists from The ...