European scientists are merging renewable resources with nanotechnology with EU funding of the 'Surface functionalisation of cellulose matrices using cellulose embedded nanoparticles' (Surfuncell) project.
The Technology Innovation Grant provides funding, business support, equipment, facilities and expert consultation to researchers developing technology related to the microelectronics, biomedical device, nanotechnology and MEMs fields.
A very special clock that can measure time on the basis of the mass of a single atomic or even subatomic particle holds promise not only for ultraprecise measurements of mass and time, but also for such exotic applications as testing Einstein's general theory of relativity, or the effects of gravity on antimatter.
An industrial revolution on a minute scale is taking place in laboratories at The University of Manchester with the development of a highly complex machine that mimics how molecules are made in nature.
Scientists from Berkeley Lab and the National University of Singapore have developed a way to manipulate nanoparticles using an electron beam. They used an electron beam from a transmission electron microscope to trap gold nanoparticles and direct their movement. They also used the beam to assemble several nanoparticles into a tight cluster.
Over the past decade or so, atomtronics has been under development, employing not electrons but neutral atoms as the vehicle for information. The latest chapter in this development is the demonstration of a rudimentary atomtronic analog of capacitance
Scientists are reporting development of chemical modules that can reproduce, on an "unprecedented" molecular level, changes and interactions that occur in natural populations of plants and animals, including those of hunting and being hunted for food, conducting mutually beneficial relationships and competing for resources.