Dec 072010
 

High surface area of graphene make supercapcitors possible

A breakthrough in supercapacitor performance has been achieved with the development of a device that can store as much energy as a battery while recharging in seconds.

The graphene-based supercapacitor being developed in the U.S. by researchers at Nanotek Instruments can store as much energy per unit mass as nickel metal hydride batteries and could one day be used to help deliver almost instant charging to recharge mobile phones, digital cameras or micro electric vehicles.

With the high surface area of their electrodes and an extremely narrow gap between the electrodes, supercapacitors, also known as electric double-layer capacitors or electrochemical capacitors, can store a large amount of electrical charge in a tiny volume. The newly developed device has electrodes madegraphene mixed with an acetylene black called Super P that acts as a conductive additive and a binder that holds it all together. The resulting slurry is coated onto the surface of a current collector and assembled in coin-sized capacitors. The electrolyte-electrode interface is made of “Celguard-3501” and the electrolyte is a chemical called EMIMBF4.

Specific energy density of the new capacitor (a measure of how much electricity can be stored per weight) has been measured at 85.6 Wh/kg at room temperature and 136 Wh/kg at 80 degrees Celsius (176 F), which is comparable to Ni-mh batteries. These are the best values for electric double layer supercapacitors based on carbon nanomaterials recorded to date.

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