Flexible, High-Performance Battery Anode Comprising of Free-Standing Graphene-SiOC Composite Paper
Reference Number: 13-11
Inventors: Gurpreet Singh, Lamuel David and Romil Bhandavat
Researchers at K-State have developed a high-performance, self-standing and flexible battery anode comprising of Graphene-SiOC composite paper. This flexible composite paper is prepared using a combination of amorphous SiOC polymer-derived ceramic and reduced-Graphene Oxide sheets. The electrode made from this combination of materials has been found to demonstrate an exceptional cyclic stability and a significantly high capacity when used in a Lithium-ion battery.
The reduced Graphene Oxide used in this composite paper serves as an effective current collector and electron conductor, while the amorphous SiOC particles actively cycle Lithium ions. Therefore, the key aspect of this freestanding paper is that it eliminates the use of copper as a current collector in a Lithium-ion battery anode, while providing for a mechanically flexible electrode.
Advantages and Technical Merits:
- This novel and unique anode exhibits nearly 100% efficiency in exhibiting :
A stable charge capacity of about 543 mAhg-1 at current densities of about 2400mAg-1, and
A stable charge capacity of about 200 mAhg-1 after 1000 cycles, at current densities of about 1600mAg-1.
A demonstrated example of the successful use of Graphene, which provides the anode with structural stability and allows for a consistent performance at high current densities.
Because this electrode eliminates the use of copper current collector, binder and conducting agents, it can be used to manufacture “Flexible, Light-Weight and Highly-Efficient” Lithium-ion batteries.
Researchers regard this as arguably the first self-standing electrode comprising of a polymer-derived SiOC and Graphene.
Applications and Commercial Opportunities:
This anode is applicable to all the possible energy-related uses of a flexible and light-weight Lithium-ion battery, including but not limited to:
Intermittent storage in power grid.
Powering refrigeration panels and/or temperature-control panels.
Powering electronic devices and appliances, particularly those which will benefit from flexible, light-weight batteries.
- Provisional patent application filed in April 2013.
Kansas State University Research Foundation seeks to have discussions with companies that are interested in licensing and/or research collaborations.
Interested parties should contact:
Kansas State University Institute for Commercialization (KSU-IC)
2005 Research Park Circle Manhattan, KS 66502
Tel: 785-532-3900 Fax: 785-532-3909