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Virus powered battery developed by MIT
Key Excerpts from Article on Website of MIT News
Posted: August 29th, 2009
http://web.mit.edu/newsoffice/2009/virus-battery-0402.html
For the first time, MIT researchers have shown they can genetically engineer viruses to build both the positively and negatively charged ends of a lithium-ion battery. The new virus-produced batteries have the same energy capacity and power performance as state-of-the-art rechargeable batteries being considered to power plug-in hybrid cars, and they could also be used to power a range of personal electronic devices, said Angela Belcher, the MIT materials scientist who led the research team. The new batteries ... could be manufactured with a cheap and environmentally benign process: The synthesis takes place at and below room temperature and requires no harmful organic solvents, and the materials that go into the battery are non-toxic. In a traditional lithium-ion battery, lithium ions flow between a negatively charged anode, usually graphite, and the positively charged cathode, usually cobalt oxide or lithium iron phosphate. Three years ago, an MIT team led by Belcher reported that it had engineered viruses that could build an anode by coating themselves with cobalt oxide and gold and self-assembling to form a nanowire. In the latest work, the team focused on building a highly powerful cathode to pair up with the anode. Cathodes are more difficult to build than anodes because they must be highly conducting to be a fast electrode. Most candidate materials for cathodes are highly insulating (non-conductive). To achieve that, the researchers ... genetically engineered viruses that first coat themselves with iron phosphate, then grab hold of carbon nanotubes to create a network of highly conductive material.
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