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Tuesday, August 26, 2008
Tuesday, August 05, 2008
Нанотехнологийн дэвшлүүд
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A New Superconductor
No resistance: New superconductors contain alternating layers of iron arsenide (orange and red) and rare earth metal oxides (blue and gray) doped with fluorine (green). Iron arsenide compounds become superconducting at relatively high temperatures of 55 K, and researchers are now beginning to decipher their superconducting mechanism.
Credit: Hideo Hosono, Tokyo Institute of Technology
No resistance: New superconductors contain alternating layers of iron arsenide (orange and red) and rare earth metal oxides (blue and gray) doped with fluorine (green). Iron arsenide compounds become superconducting at relatively high temperatures of 55 K, and researchers are now beginning to decipher their superconducting mechanism.
Credit: Hideo Hosono, Tokyo Institute of Technology
Super-Charging Lithium Batteries
Swelling nanowires: Upon charging with lithium ions, these silicon nanowires swell from 89 nanometers wide (top) to 141 nanometers wide and elongate (bottom); they can accommodate 10 times more lithium ions than conventional graphite electrodes can. As a result, the nanowires could more than triple the energy capacity of lithium batteries.
Credit: Yi Cui
Swelling nanowires: Upon charging with lithium ions, these silicon nanowires swell from 89 nanometers wide (top) to 141 nanometers wide and elongate (bottom); they can accommodate 10 times more lithium ions than conventional graphite electrodes can. As a result, the nanowires could more than triple the energy capacity of lithium batteries.
Credit: Yi Cui
Smarter, Faster Nano Sensor
Small sensor: A close-up shows carbon nanotubes (bottom) spanning the space between interlocking gold electrodes in a new type of gas sensor. The nanotubes are coated with an amine through which gases adsorb on the nanotube surface and detach after a few milliseconds. Change in conductivity of the carbon nanotubes specifies which gas was adsorbed.
Credit: Chang Young Lee, MIT
Small sensor: A close-up shows carbon nanotubes (bottom) spanning the space between interlocking gold electrodes in a new type of gas sensor. The nanotubes are coated with an amine through which gases adsorb on the nanotube surface and detach after a few milliseconds. Change in conductivity of the carbon nanotubes specifies which gas was adsorbed.
Credit: Chang Young Lee, MIT
Powerful plastic: As a solvent evaporates, strands of two types of polymers, conductive polythiophene and flexible polymethylacrylate, form spontaneously. (The light and dark areas indicate the different polymers.) The material is tough and has good electronic properties.
Credit: Richard D. McCullough, Carnegie Mellon University
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