Thermal conductivity (λ) is the ability of a material to transfer heat energy across a given distance. This physical property is measured in watts per meter kelvin (W/m*K). When a material’s key heat ...

Recent breakthroughs have vastly expanded the understanding of morphological, structural, magnetic, thermal, and mechanical ...

These foils offer extraordinary thermal conductivity—up to 1,400.8 W m –1 K –1 —nearly ten times higher than traditional copper and aluminum current collectors used in LIBs. "This is a significant ...

However, K eff in the nano-heater/cooler configuration was highly ... thin films and tightly packed nano-coolers at the opposite ends. The enhancement in thermal conductivity was driven by phonon ...

Researchers in China have found that a special type of hygroscopic hydrogel made of the polyacrylamide polymer and lithium chloride may reduce PV module temperature by up to 7.5%. They have also ...

Tungsten has a Young's modulus of 407 GPa, a yield stress of 1.516 GPa, and a UTS of 1.516 GPa. The linear coefficient of thermal expansion is 4.59 m/m/K and the thermal conductivity is 1.73 W/cm/K.

a yield stress of 310 MPa, and a UTS of 448 MPa. The linear coefficient of thermal expansion is 10.44 m/m/K and the thermal conductivity is 0.227 W/cm/K ...

Deep beneath our feet, at a staggering depth of over 5,100km, lies Earth's inner core — a solid ball of iron and nickel that ...

Researchers have long shown that the cubic phase of germanium telluride (GeTe) exhibits an unexpected rise in lattice thermal conductivity as its temperature increases. But knowing that a property ...

Deep beneath our feet, at a staggering depth of over 5,100km, lies Earth's inner core—a solid ball of iron and nickel that ...

1121-1126, 2006. Thermal Conductivity Measurements of Biomaterials. J.W. Baish, Encyclopedia of Biomedical Engineering, John Wiley and Sons, 2006. Numerical Models of Blood Flow Effects in Biological ...