Site Sponsors
  • Park Systems - Manufacturer of a complete range of AFM solutions
  • Strem Chemicals - Nanomaterials for R&D
  • Oxford Instruments Nanoanalysis - X-Max Large Area Analytical EDS SDD
Posted in | Nanoenergy

Scientists Develop Advanced Lithium-Ion Battery Using Nanostructured Anode

Published on February 24, 2011 at 3:36 AM

Scientists are reporting development of an advanced lithium-ion battery that is ideal for powering the electric vehicles now making their way into dealer showrooms.

The new battery can store large amounts of energy in a small space and has a high rate capacity, meaning it can provide current even in extreme temperatures. A report on this innovation appears in ACS' Journal of the American Chemical Society.

Bruno Scrosati, Yang-Kook Sun, and colleagues point out that consumers have a great desire for electric vehicles, given the shortage and expense of petroleum. But a typical hybrid car can only go short distances on electricity alone, and they hold less charge in very hot or very cold temperatures. With the government push to have one million electric cars on U.S. roads by 2015, the pressure to solve these problems is high. To make electric vehicles a more realistic alternative to gas-powered automobiles, the researchers realized that an improved battery was needed.

The scientists developed a high-capacity, nanostructured, tin-carbon anode, or positive electrode, and a high-voltage, lithium-ion cathode, the negative electrode. When the two parts are put together, the result is a high-performance battery with a high energy density and rate capacity. "On the basis of the performance demonstrated here, this battery is a top candidate for powering sustainable vehicles," the researchers say.

Source: http://www.acs.org/

Tell Us What You Think

Do you have a review, update or anything you would like to add to this news story?

Leave your feedback
Submit