Have you ever noticed that when heated a film of oil in a pan doesn?t remain completely flat? Instead, it forms a wavy pattern that resembles the exterior of an orange. These sorts of deformations inspired a group of researchers to explore whether they could be used to improve and streamline microfabrication processes.
Members of a research collaboration have succeeded in experimentally verifying the properties of crystals of chiral magnetic materials, which may lead to the development of new types of magnetic memories with unprecedented storage capacities.
Physicists have shown how liquids on solid surfaces can be made to slide over the surface a bit like a bobsleigh on ice. The key is to apply a coating at the boundary between the liquid and the surface that induces the liquid to slip.
Scientists have recently found that the hard shells of diatoms have the highest specific strength - the strength at which a structure breaks with respect to its density - of any known biological material, including bone, antlers, and teeth.
Researchers show that the key to obtaining diffraction data from non-crystalline but symmetric structures, such as helices, lies in matching the symmetry of the incoming radiation to the symmetry of the structure to be studied.
Scientists used NIPAM-based nanogels synthesised with different percentages of MBA (N,N?-methylenebisacrylamide) as a cross-linker in the range 10?30%, and characterised them at human physiological temperature. Detailed structural studies of these systems on a molecular length scale have not been attempted before now.