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Electrode material for lithium-based electrochemical energy storage

Summary: The invention ("CCZFE") describes a process for producing carbon coated nickel ferrite nanoparticles and their use as electrode material in lithium ion batteries.

Technology Benefits: New materials provide enhanced specific capacities for elevated applied current densities, e.g.: 500 mAh/g at 4.0 A/g and 1000 mAh/g at
0.1 A/g
 Significantly improved cycling stability
 Highly cost-effective technology
 Easily applicable for large scale industrial production
 Prototypes as well as further data and information available on demand

Technology Application: The use of these carbon coated metal oxide nanoparticles enables the realization of environmentally friendly, cost-effective, and lightweight electrochemical ener-gy storage devices for future large scale applications.
Transition metal oxides provide higher specific capacities compared to graphite, which is the actual state-of–the-art in Li-ion batteries.

Detailed Technology Description: The use of these carbon coated metal oxide nanoparticles enables the realization of environmentally friendly, cost-effective, and lightweight electrochemical ener-gy storage devices for future large scale applications.
Transition metal oxides provide higher specific capacities compared to graphite, which is the actual state-of–the-art in Li-ion batteries. Nevertheless, the main drawback of these conversion materials so far has been a reduced cycling stability and limited obtainable specific capacities at elevated applied current densities.
However, these drawbacks could be overcome by utilizing the new carbon coated metal oxide nanoparticles. As a matter of fact, by using these materials it is possible to realize batteries offering a superior electro-chemical performance at high current densities and advanced cycle life. Moreover, such enhanced electrodes are easily recyclable and 100% environmentally friendly.

Type of Cooperation: Licensing

Application Date: 23/02/2012 00:00:00

Application No.: DE201210101457 20120223

Classes: - international:
C04B35/30; C04B41/85; H01M4/131; H01M4/1391; H01M4/1393
- cooperative:
B82Y30/00; C09C1/22; H01M10/0525; H01M4/0402; H01M4/0471; H01M4/1391; H01M4/366; H01M4/621; H01M4/625; H01M6/14; C01P2002/32; C01P2002/50; C01P2002/52; C01P2002/54; C01P2002/72; C01P2002/82; C01P2002/88; C01P2004/03; C01P2004/32; C01P2004/61; C01P2004/62; C01P2004/64; C01P2006/12; C01P2006/40; H01M2220/10; H01M2220/20

Others: Patent application

ID No.: 3265

Country/Region: Germany

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