Highlights
Mar 12, 2012
Ohio State University
Gating Individual Dopants with an Individual Defect in Semiconductors
One factor limiting the scaling and
reproducibility of device elements in computer processors is the random
distribution of dopants in semiconductor nanostructures. To overcome this
obstacle for faster computing, new ways to position and address individual
dopants are needed. Proposals for next-generation computing based on quantum
variables such as electron spin also require the ability to address and control
interactions between individual atoms.
Mar 12, 2012
Ohio State University
Integrating Magnetic Plastics Into Next-Generation Electronic Devices
Scientists researching electronic
devices that promise to extend current technologies beyond the ITRS roadmap –
the industry generated timeline for the development of silicon-based
electronics – have for some time focused on the potential for the field of “spintronics”
to deliver fast, low-power computing. However, progress in the area of computer
Feb 27, 2012
University of Colorado at Boulder
Shape-Controlled Colloidal Interactions In Liquid Crystals
When an object, such as a colloidal particle, is put into a liquid crystal, it alters the otherwise uniform orientation of the molecules, creating a field of orientational disturbance around itself. This field acts on the object to align it with particular orientation relative to the average liquid crystal direction, indicated by the arrows in the image.
Feb 27, 2012
University of Colorado at Boulder
Polymerized Nanoporous Lyotropic Liquid Crystals for use with Room Temperature Ionic Liquids
LCMRC researchers have created a new family of electrolytes that promise to revolutionalize Lithium ion battery technology. Electrolytes are the electrically conducting media in batteries. Good ones carry high current density without chemical degradation and maintain their desirable characteristics over many charging and discharging cycles.
Feb 27, 2012
University of Colorado at Boulder
Picoprojectors using Ferroelectric Liquid Crystal Microdisplays
Center researchers are collaborating with spin-off Displaytech to develop FLC materials for application in picoprojectors. The high quality time sequential color and high brightness enabled by FLC switching speed makes FLC-on-silicon an excellent display technology for picoprojectors, currently being marketed by 3M.
Feb 27, 2012
University of Colorado at Boulder
Liquid Crystals a Sensitive Probe of DNA Hybridization
Liquid crystals that realign in response to DNA can reveal subtle sequence alterations, even a single base mutation. Center investigator Dan Schwartz.and doctoral student Andrew Price showed that nematic liquid crystals, which naturally align themselves perpendicular to the surface of a surfactant-coated glass slide, tilt slightly following the addition of short lengths of single stranded DNA.
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