A research team fabricated nanoscrolls made from graphene oxide flakes and was able to control the dimensions of each nanoscroll, using both low- and high-frequency ultrasonic techniques. The scrolls have mechanical properties that are similar to graphene, and they can be made at a fraction of the cost.
Researchers have combined the benefits of organic and inorganic electronic materials in a new type of hybrid inks. This allows electronic circuits to be applied to paper directly from a pen, for example.
In phase transitions, for instance between water and water vapour, the motional energy competes with the attractive energy between neighbouring molecules. Physicists have now studied quantum phase transitions in which distant particles also influence one another.
Physicists have discovered a topological metal, PtSn4 (platinum and tin), with a unique electronic structure that may someday lead to energy efficient computers with increased processor speeds and data storage.
An international team of physicists has discovered that applying a magnetic field to a non-magnetic metal made it conduct 70% more electricity, even though basic physics principles would have predicted the opposite.
Researchers are presenting a new process that, in a single step, allows manufacture of conductive paths that are just a few micrometers in width on flexible foils. As a result, new designs for appliances with flexible or even rollable displays will be possible.
The Biomedical Technologies Work Package will focus on the development of smart implants with therapeutic functionality for specific clinical outcomes in disciplines such as neurology, ophthalmology and surgery.
Researchers believe that the trick to gaining access to the pernicious cellular masses is to give the nanoparticles a new look - and that dressing to impress will be able to get them past the tumor's biological bouncers.