The ability to engineer the thermal conductivity of materials allows us to control the flow of heat and derive novel functionalities such as thermal rectification, thermal switching and thermal ...
To address the intense heat loads that limit the reliability of next-generation computers and ...
Researchers from Skoltech have devised a way to detect infrared radiation across a wide range without cooling the detector.
Crystals that can freely conduct electrons, but not heat, hold great potential for numerous applications. A team of researchers has now developed a method for discovering and developing these ...
Mechanical Engineering Professor Alan McGaughey of Carnegie Mellon University recently coordinated the Phonon Olympics, bringing together developers and expert users to benchmark three leading ...
University of Massachusetts Amherst researchers have demonstrated a possible new avenue for developing flame-retardant and generally low-conductivity (low-heat-transfer) plastics that retain the ...
Data center servers, powerful smartphones, and your computer's motherboard have one thing in common. When these devices get too hot, their performance takes a hit, and we can't have that. That's why ...
University of Massachusetts Amherst researchers have demonstrated a possible new avenue for developing flame-retardant and ...
QTREX Quantum Ltd. (Nasdaq: QTEX) ("QTREX" or the "Company"), a company focused on advancing Additively Manufactured Electronics (“AME”) for quantum computing infrastructure today announced the ...
Aluminum and copper have the highest thermal conductivity among common metals (205W/mK and 401W/mK versus say 50W/mK for steel) and are easily the most frequently used materials in the making of ...