Once thought impossible, quasicrystals revealed a hidden order that challenges our understanding of materials. Their ...
Rubies and emeralds have the colors they do because, like many substances, they absorb some colors of light. Most visible light, like sunlight, is composed of all the colors of the rainbow: red, ...
Researchers have explored a 'quantum-inspired' technique to make the 'ones' and 'zeroes' for classical computer memory applications out of crystal defects, each the size of an individual atom. This ...
D-COFs developed by Tokyo researchers demonstrate low heat of adsorption and high CO2 selectivity, paving the way for ...
Porous organic crystals with superior properties as CO2 adsorbents were created by researchers at Institute of Science Tokyo.
Both rubies and emeralds are minerals, which is a type of rock with a consistent chemical composition and a highly ordered structure at the atomic level.
Crystal field theory makes predictions about how a transition metal ion's structure is affected by the other atoms surrounding it. Rubies are mainly made up of the mineral corundum, which is composed ...
Crystal field theory makes predictions about how a transition metal ion’s structure is affected by the other atoms surrounding it. Rubies are mainly made up of the mineral corundum, which is ...
Figure 1: Secondary structures of RNA stem-loops that bind to MS2 coat protein. Figure 2: Overall structure of the complexes, generated by superposing the coat protein. Figure 4: Schematic diagram ...