New material may boost data storage on fingernail-sized computer chips
October 21st, 2009 - 4:12 pm ICT by ANI ( Leave a comment )Washington, October 21 (ANI): North Carolina State University engineers have created a new material that would allow a fingernail-size computer chip to store the equivalent of 20 high-definition DVDs or 250 million pages of text, far exceeding the storage capacities of today’s computer memory systems.
Led by Dr. Jagdish Narayan, John C.C. Fan Family Distinguished Professor of Materials Science and Engineering and director of the National Science Foundation Center for Advanced Materials and Smart Structures at NC State, the engineers made their breakthrough using the process of selective doping, in which an impurity is added to a material that changes its properties.
Working at the nanometer level, the engineers added metal nickel to magnesium oxide, a ceramic.
The resulting material contained clusters of nickel atoms no bigger than 10 square nanometers, a 90 percent size reduction compared to today’s techniques and an advancement that could boost computer storage capacity.
“Instead of making a chip that stores 20 gigabytes, you have one that can handle one terabyte, or 50 times more data,” Narayan said.
Information storage is not the only area where advances could be made.
According to Narayan, by introducing metallic properties into ceramics, engineers could develop a new generation of ceramic engines able to withstand twice the temperatures of normal engines and achieve fuel economy of 80 miles per gallon.
Since the thermal conductivity of the material would be improved, the technique could also have applications in harnessing alternative energy sources like solar energy.
The engineers’ discovery also advances knowledge in the emerging field of “spintronics,” which is dedicated to harnessing energy produced by the spinning of electrons.
Most energy used today is harnessed through the movement of current and is limited by the amount of heat that it produces, but the energy created by the spinning of electrons produces no heat.
The NC State engineers were able to manipulate the nanomaterial so the electrons’ spin within the material could be controlled, which could prove valuable to harnessing the electrons’ energy.
The finding could be important for engineers working to produce more efficient semiconductors. (ANI)
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Tags: alternative energy sources, ceramic engines, computer chips, computer storage capacity, fuel economy, information storage, materials science and engineering, memory systems, metallic properties, nanometer level, national science foundation, national science foundation center, nickel atoms, north carolina state university, sized computer, smart structures, spintronics, storage capacities, thermal conductivity, university engineers
