Pre-lithiated Graphite from Recycled Li-ion Batteries
- 技術優勢
- Re-manufacturing of graphiteTunable levels of pre-lithiation
- 技術應用
- High energy, high powered anodesComplete recycling of Li-ion batteries
- 詳細技術說明
- None
- *Abstract
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Currently Li-ion battery recycling returns less than 10% of the original battery value. In addition, much of the non-recycled components are discarded in landfill. Li ion battery technology is expected to grow to a $30B industry in the next 5-10 years. In large part this will be driven by the introduction of electric vehicles. A conservative estimate for the number of electric vehicles by 2015 is one million. To address this challenge, investigators at University of California at Berkeley have developed a method of producing pre-lithiated graphite from recycled Li-ion batteries. This offers an opportunity to introduce novel materials into Li ion battery technology at a very large scale. For example, a typical electric vehicle battery uses a 30kWhr battery, which will need 30kg of anode material. In the case of graphite, this could represent a cost opportunity of ~$500 per vehicle. This invention can provide graphite at a minimum savings of 10% by increasing the performance of the graphite through re-manufacturing. For the first time, this innovation allows for the extraction of the components of a Li-ion battery for complete recycling, and in the case of the anode, re-manufacturing of graphite. This is accomplished by opening cells at a specific state of degradation and under specific conditions. The unique process allows for a specific level of pre-lithiation to be reached and achieving a suitable anode material for specific applications of Li-ion batteries, e.g. high power, high energy, novel anodes, etc. The unique feature of this invention is that the graphite is both re-manufactured (and thus re-used) as an anode, as well as a source of pre-lithiation.
- *Principal Investigation
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Name: Gao Liu
Department:
Name: Andrew Minor
Department:
Name: Abraham Anapolsky
Department:
Name: Julian Sabisch
Department:
- 其他
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Tech ID/UC Case
22271/2012-074-0
Related Cases
2012-074-0
- 國家/地區
- 美國
