Trade Resources Economy Graphene Bridges Gap Between Traditional Capacitors, Batteries

Graphene Bridges Gap Between Traditional Capacitors, Batteries

Researchers at the California NanoSystems Institute (CNSI) at UCLA have set the stage for a watershed in mobile energy storage by using a special grapheneGraphene is an allotrope of carbon, whose structure is one-atom-thick planar sheets of sp2-bonded carbon atoms that are densely packed in a honeycomb crystal lattice. material to significantly boost the energy densityA figure of merit usually expressed in Joules per cubic inch for capacitorsA figure of merit usually expressed in Joules per cubic inch for capacitorsA figure of merit usually expressed in Joules per cubic inch for capacitors of electrochemical capacitors, putting them on a par with lead acid batteries.

The material, called a holey grapheneGraphene is an allotrope of carbon, whose structure is one-atom-thick planar sheets of sp2-bonded carbon atoms that are densely packed in a honeycomb crystal lattice. framework, has a three-dimensional, perforated structure characterized by tiny holes; it not only increases energy densityA figure of merit usually expressed in Joules per cubic inch for capacitorsA figure of merit usually expressed in Joules per cubic inch for capacitorsA figure of merit usually expressed in Joules per cubic inch for capacitors (the amount of energy stored and ready for use) but allows electrochemical capacitors to maintain their high power densityA figure of merit usually expressed in Joules per cubic inch for capacitorsA figure of merit usually expressed in Joules per cubic inch for capacitorsA figure of merit usually expressed in Joules per cubic inch for capacitors (the amount of power per unit of mass or volume), according to Xiangfeng Duan, a UCLA professor of chemistry and biochemistry who led the research.

Source: http://www.capacitorindustry.com/graphene-bridges-gap-between-traditional-capacitors-batteries
Contribute Copyright Policy