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Pre-Lithiation of Battery Electrodes
Yi CuiStanford University
June 9, 2016Project ID #ES272
This presentation does not contain any proprietary, confidential, or otherwise restricted information
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• Start: August 1, 2013• End: July 31, 2017• Percent complete: 75%
Barriers of prelithiation - Low Coulombic efficiency- Low capacity- High chemical reactivityTargets: high-efficiency and
high-energy batteries• Total project funding
$900k from DOE• Funding received in FY14
$300k• Funding for FY15
$300k• Funding for FY16
$300k
Timeline
Budget
Barriers
• Collaboration- BMR program PI’s- SLAC: In-situ X-ray- Amprius Inc.
Partners
Overview
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Project Objective and RelevanceObjective-Design and synthesize lithiated silicon to prelithiate various anode materials.
-Increase first-cycle Coulombic efficiency via anode prelithiation.
-Increase first-cycle Coulombic efficiency via cathode prelithiation.
-Increase the stability of prelithiation reagents in both dry air and ambient air conditions.
-Design and fabricate fully lithiated anode materials to pair with high capacity lithium-free cathodes for next generation high energy density batteries.
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Milestones for FY15 and 16Month/year Milestones
1/2015 Prelithiate anode materials with dry-air-stable LixSi-Li2O core-shell nanoparticles (>1200 mAh/g) (completed)
7/2015 Synthesize artificial-SEI protected LixSi nanoparticles with high capacity (>2000 mAh/g) and humid-air-stability (completed)
12/2015 Synthesize Li2O/metal nanocomposite for cathode prelithiation with high capacity (>600 mAh/g) (completed)
2/2016 Synthesize LiF/metal nanocomposite for cathode prelithiation with high capacity and humid-air-stability (completed)
4/2016 Increase the stability of prelithiation reagents in organic solvents (on track)
7/2016 Design and fabricate fully lithiated anode materials with high capacity and cycling stability to pair with high capacity lithium-free cathodes (on track)
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Approach/StrategyPrelithiation reagents design and synthesis
Structure and property characterization1) Ex-situ transmission electron microscopy2) Ex-situ scanning electron microscopy3) Ex-situ X-ray photoelectron spectroscopy4) In operando X-ray diffraction and transmission X-ray microscopy
Electrochemical testing1) Coin cells and pouch cells2) A set of electrochemical techniques
5 µm 400 nm
1) Compensate 1st cycle anode capacity loss with anode prelithiation reagents (LixSi nanoparticles)
2) Compensate the anode capacity loss with cathode prelithiation reagents (Li2O/metal nanocomposite)
3) Achieve improved stability of anode prelithiation reagents in the dry and ambient air condition by exploring inorganic and organic coatings, such as Li2O and artificial SEI-coating.
4) Increase the stability of cathode prelithiation reagents by exploring different composites
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Previous Accomplishments on Prelithiation
Cui group, ACS Nano 5, 6487 (2011)
Prelithiation of Si nanowires via electrochemical shorting mechanism
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Dry-air-stable LixSi-Li2O core-shell nanoparticles for anode prelithiation-Synthesis and characterizations
Cui group, Nat. Commun 5, 5088 (2014)
Accomplishment
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Dry-air-stable LixSi-Li2O core-shell nanoparticles for anode prelithiation-Battery performance: prelithiation capacity and stability
Cui group, Nat. Commun 5, 5088 (2014)
Accomplishment
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AccomplishmentArtificial-SEI protected LixSi nanoparticles for anode prelithiation -Synthesis and characterizations
Cui group, JACS, 137, 8372 (2015) Spotlight
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AccomplishmentArtificial-SEI protected LixSi nanoparticles for anode prelithiation - Battery performance: prelithiation capacity and stability
Cui group, JACS, 137, 8372 (2015) Spotlight
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Li2O/metal nanocomposite for cathode prelithiation-Synthesis and characterizations
Accomplishment
Cui group, Nature Energy 1, 15008 (2016)
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Accomplishment
Cui group, Nature Energy 1, 15008 (2016)
Li2O/metal nanocomposite for cathode prelithiation- Battery performance
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Accomplishment
Cui group, Nano Letters 16, 1497 (2016)
LiF/metal nanocomposite for cathode prelithiation-Synthesis and characterizations
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AccomplishmentLiF/metal nanocomposite for cathode prelithiation- Battery performance
Cui group, Nano Letters 16, 1497 (2016)
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Responses to Previous Year Reviewers’Comments
Not applicable
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Collaboration and Coordination
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SLAC: In-situ X-ray, Prof. Mike Toney
Companies: Amprius Inc.
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- It is difficult to maintain the high capacity of anode prelithiationreagent in the high polar solvent.
- It is challenging to maintain the high capacity of prelithiationreagent during the electrode baking process.
- It is challenging to maintain the high capacity of prelithiationreagent in humid air.
- It is difficult to fabricate Li-rich anode materials with finestructures and stable cycling.
Remaining Challenges and Barriers
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Proposed Future Work
- To improve the stability of prelithiation reagents in the slurry processby developing new solvent-binder combination.
- To improve the stability of prelithiation reagents in the dry and ambientair condition by exploring different kinds of coatings andnanostructures.
- To explore other materials with high prelithiation capacity and stability.
- To understand the interaction between molecules in the air anddifferent coatings of the prelithiation reagents.
- To synthesize Li-rich anode materials with fine structures and stablecycling and then pair them with high capacity Li-free cathodematerials.
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• Objective and Relevance: The goal of this project is to increase 1st
cycle Coulombic efficiency of lithium ion batteries via both anode and cathode prelithiation.
• Approach/Strategy: This project combines advanced materials synthesis, characterization, battery assembly and testing, which has been demonstrated to be highly effective.
• Technical Accomplishments and Progress: This project has produced many significant results, meeting milestones. They include identifying the key issues in prelithiation, using rational materials design, synthesizing and testing, and developing scalable and low-cost methods. The results have been published in top peer-reviewed scientific journals. The PI has received numerous invitations to speak in national and international conferences.
• Collaborations and Coordination: The PI has established a number of highly effective collaborations.
• Proposed Future Work: Rational and exciting future has been planned.
Summary
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