TU Wien has developed a sensor for measuring the strength of electric
fields, which is smaller, simpler and less prone to distortion than
comparable devices.Picture: Tiny new sensor - compared to a one-cent-coin
UA Scientists have tracked electrons moving through exotic
materials that may make up the next generation of computing hardware, revealing
intriguing properties not found in conventional, silicon-based semiconductors.
Schematic of the structure and the fabrication process of
Yang's spine-like battery. (a) Schematic illustration of bio-inspired
design, the vertebrae correspond to thick stacks of electrodes and soft
marrow corresponds to unwound part that interconnects all the stacks.
(b) The process to fabricate the spine-like battery, multilayers of
electrodes were first cut into designed shape, then strips extending out
were wound around the backbone to form spine-like structure.
â€”Credit: Yuan Yang/Columbia Engineering
New research led by WMG, at the University of Warwick has found an
effective approach to replacing graphite in the anodes of lithium-ion
batteries using silicon, by reinforcing the anode's structure with
graphene girders. This could more than double the life of rechargeable
lithium-ion based batteries and also increase the capacity delivered by
Scientists have created an electronic device so accurate that it can detect the charge of a single electron in less than one microsecond. It has been dubbed the 'gate sensor' and could be applied in quantum computers of the future to read information stored in the charge or spin of a single electron.
As computers continue to shrink -- moving from desks and laps to hands and wrists -- memory has to become smaller, stable and more energy conscious. A group of researchers is trying to do just that with help from a new class of materials, whose magnetism can essentially be controlled by the flick of a switch.
New understanding of the nature of electromagnetism could lead to antennas small enough to fit on computer chips -- the 'last frontier' of semiconductor design -- and could help identify the points where theories of classical electromagnetism and quantum mechanics overlap.
Researchers have developed a new lithography technique that uses nanoscale spheres to create 3-D structures with biomedical, electronic and photonic applications. The new technique is less expensive than conventional methods and does not rely on stacking two-dimensional patterns to create 3-D structures.