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Delft researchers predict 'nanobattery' performance
April 03, 2007Researchers at Delft University of Technology can predict how nanostructuring - the extreme reduction of structure - will affect the performance of Li-ion batteries. The nanostructuring of battery materials is likely to be common practice in the future, but it is not always performance-enhancing. The research findings have recently been published in the Journal of the American Chemical Society.
A Li-ion battery is currently the smallest and lightest way to store as much rechargeable electrical energy as possible. However, the batteries are slow to charge and discharge, and this restricts their suitability for applications such as hybrid and electric vehicles. This sluggish performance is largely determined by the relatively long distance the lithium-ions have to travel through the electrode material in the battery. The speed at which the ions make their way through the electrode material is also slow compared to that in electrolyte (the fluid between the electrode material). The current strategy is therefore to nanostructure the electrode particles; that is to say, to make them very small (measurable in nanometres), and by doing so to shorten the existing route within the electrode material.
Yet the battery performance of materials nanostructured in this way has failed to meet expectations. To a great extent, these discrepancies were not understood. By using neutron-diffraction research technology, researchers at Delft University of Technology's Reactor Institute Delft (RID) have discovered that when the electrode particles are scaled down, the properties of the material structure change significantly. The phase balance that is generally present in this type of material changes and even disappears completely if the electrode sections become small enough.
Based on these findings, the researchers (Marnix Wagemaker, Wouter Borghols and Fokko Mulder) can predict how the nanostructures will affect the performance of the Li-ion batteries. They have concluded that the nanostructures of the electrode materials in Li-ion batteries is largely dependent on the material and the exact particle size. At a more general level, their findings are important for applications in which small ions diffuse into nanocrystals, such as hydrogen storage and the formation of alloys.
Delft University of Technology
Based on these findings, the researchers (Marnix Wagemaker, Wouter Borghols and Fokko Mulder) can predict how the nanostructures will affect the performance of the Li-ion batteries. They have concluded that the nanostructures of the electrode materials in Li-ion batteries is largely dependent on the material and the exact particle size. At a more general level, their findings are important for applications in which small ions diffuse into nanocrystals, such as hydrogen storage and the formation of alloys.
Delft University of Technology
Sweet nanotech batteries
Nanotechnology could improve the life of the lithium batteries used in portable devices, including laptop computers, mp3 players, and mobile phones. Research to be published in the Inderscience publication - International Journal of Nanomanufacturing - demonstrates that carbon nanotubes can prevent such batteries from losing their charge capacity over time.
Research paves way for new composite materials
Northwestern University researchers have developed a process that promises to lead to the creation of a new class of composite materials - "graphene-based materials."
New technology will allow for flexible television and computer screens
Organic light emitting diodes (OLED) are the technology used in making light emitting fabrics used in cell phones and televisions.
MIT researchers build tiny batteries with viruses
MIT scientists have harnessed the construction talents of tiny viruses to build ultra-small "nanowire" structures for use in very thin lithium-ion batteries.
Active carbon supercondenser
CIDETEC has just completed the project, subsidised by the Basque Government and CEGASA, "The development of a active carbon supercondenser for high-tension applications", aimed at developing home-grown technology which would allow the construction of an active carbon-based, double-layer prototype. Supercondensers (SC's) are made up of two porous electrodes insulated from possible electrical contact by a separator paper impregnated with an ion-conducting medium or electrolyte. Energy storage is produced by separation of negative and positive charges on the electrode/electrolyte interface as a result of a potential difference applied externally to these electrodes. The combination of
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