Crystallization studies carried out in space laboratories, which are unaffordable and expensive for the majority of research labs, demonstrated the beneficial effects of microgravity during the crystal growth process and the morphogenesis of materials.
Researchers have used simulation and experiments to illustrate that introducing a small nanoscale texturing on the surface of materials in perovskite or silicon tandem solar cells can remarkably raise the efficiency by decreasing the amount of light energy lost by reflection.
The addition of calcium and lead to an industrial catalyst significantly improves its potential to promote the production of propylene at extreme temperatures, which makes it firm and active for around a month.
As the leading manufacturer of analytical instruments, Bettersize Instruments has announced the opening of a new state-of-the-art regional laboratory in Hephaestus, Moscow.
Research published in the Proceedings of the National Academy of Sciences describes a new type of liquid in thin films, which forms a high-density glass.
Porvair Sciences reports on the installation of new automated precision die-cutting equipment that has enabled a five-fold increase in its production capacity for porous plastic components.
Electromagnetic waves in the terahertz regime contribute to important applications in communications, security imaging, and bio- and chemical sensing. Such wide applicability has resulted in significant technological progress.
Scientists from the University of Science and Technology of China (USTC) affiliated with the Chinese Academy of Sciences (CAS) have developed a novel material to manufacture affordable and effective all-solid-state Li ba...
Silicon, a semi-metal, bonds in its natural form with four other elements and its three-dimensional structure takes the form of a tetrahedron.
( Massachusetts Institute of Technology ) MIT physicists have observed signs of a rare type of superconductivity in a material called "magic-angle" twisted trilayer graphene. They report that the material exhibits superconductivity at surprisingly high magnetic fields of up to 10 Tesla, which is three times higher than what the material is predicted to endure if it were a conventional superconductor.