atomic layer deposition: past, present, and future · atomic layer deposition: past, present, and...
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Atomic Layer Deposition: Past, Present, and Future
James E. Trevey, Ph.DBattery Power 2016, Denver, CO
August 3, 2016
www.pneumaticoat.com
7180 W. 117th Ave Unit ABroomfield, CO [email protected]
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Company Overview – PneumatiCoat (PCT)
• Technology
– Improve pack performance and costusing encapsulation coatings that deliversustainable $/kWh advantages
• Value Proposition
– Increased performance
– Lower cost per kWh
• Atomic Layer Deposition (ALD)
– Toll Coating
– Service Contracts
– Production Systems
– Grant Opportunities Vision Statement: To be the world leader in innovative materials solutions, and to create safer and more efficient products.
2
HELPING TO MAKE BATTERIESSMALLER, LIGHTER, SAFER AND CHEAPER
PCT’s Impact: BRINGING VALUE TOCUSTOMERS AND OEMs
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Outline
• Active Materials and Encapsulation Benefits
• Encapsulation Processes and ALD Background
• ALD processing: Current/Future Advantages and Historical Disadvantages
• Capabilities and Demonstrated Benefits of ALD
• Commercial ALD Solutions
• Summary and Recommendations
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Active Materials
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• Incremental improvements in quality, energy density over 30 years
• However materials still sufferfrom surface-driven degradation:– Electrolyte Interactions
– Phase Transitions
– Oxygen Loss
– Particle Fractionation
– Conductivity Loss
– SEI / Resistivity Build-up
N. Nitta et al. Materials Today 18, 5, 2015.
B. Scrosati et al. Lithium Batteries: Advanced Technologies and Applications. 2013.
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Next Gen Performance Requires Coated Particles
5Adapted from Figure 3 of J. Cho, P.G. Bruce et al., Angew. Chem. Int. Ed. 2012, 51, 9994 – 10024.
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Process Windows of Coating Techniques
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10 nm 100 nm
Film Thickness
0.1 nm 1 nm 1mm 10mm
Par
ticl
e D
iam
ete
r
100 mm 1mm 10mm
10 nm
100 nm
0.1 nm
1 nm
1mm
10mm
100 mm
1mm
10mmLiquid Phase Techniques
Figure 2: High resolution TEM
images showing 300 nm pigment-
grade TiO2 particles coating using
the a) the commercial liquid-phase
technique (from the Millennium
Chemicals website) and b) the
ALD technique.
a)
b)
Sol-gel
SiO2
ALD
SiO2
~ 300 nm
Pigment
Grade
TiO2
~ 300 nm
Pigment
Grade
TiO2
PVD, Sputtering
CVD
PECVD
ALD, MLD
BN ALD film
50 nm ZrO2 particles
10 nm
SiO2
250 nm
TiO2
ALD offers precision control required to prevent resistivity build-up due to coatings
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Next Gen Performance Requires Coated Particles
7
Adapted from: Z. Chen, Y. Qin, K. Amine, Y.-K. SunJ. Mater. Chem. 2010, 20, 7606-7612
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Rational Design of Optimal Coatings
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Quantum simulation of oxides:
• Single non-porous monolayer issufficient to mitigate electrolyte degradation
• Chemically bonded film (ALD)is the most durable solution
• Simple ALD coatings can lithiateand fluorinate in situ
• Complex ALD coatings further enhance thermal, mechanical and electrochemical stability
Courtesy of C. MusgraveUniversity of Colorado at Boulder
Courtesy of M. ThackerayArgonne National Laboratory
Failure Analysis fromLNMO/Graphite Cell
Mn from CathodeDeposits on Anode
* X. Xiao et al. Electrochemistry Communications 32 (2013) 31–34
*
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Overview of ALD Process
Historically: Slow, ExpensiveZero Manufacturing Innovation
Zero Commercial Adoption
Particle ALDinvented
19922011
20122013
20142015
PCTTech
Validation 3 kg/hrPrototype
DOESBIRPhase I & II
200 kg/dayPilot Line
• Gas phase process • No line-of-sight restrictions• Self limiting• Sub-nanometer control• Pinhole free
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Nano-M&M’s
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Direct technology comparison: Li-ion Batteries
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Material efficiency is the difference
ALD delivers improved
long-term performance
at reduced material costsLayered NMC4.8V cycling
US Patent 8,993,051
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ALD provides enhancements to ALL chemistries
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Clear scale-up roadmap:High throughput spatial ALD
processing system for particles
The Challenge:No silver bullet coating, all must be optimized by type
• Increased capacity retention
• Higher temperature stability
• Greater over-voltage protection
• Faster charge/discharge rates
• Reduced Cost of Ownership
Particle ALD delivers clear, low-cost value propositions for all market applications
References for Scott et al, Jung et al., Riley et al., available upon request
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High Temperature Performance and Safety
• High temperature performance– Demanding applications
– Reduced cooling requirements
PCT, LLC. - Confidential & Proprietary 12
• Safety Improvements– Exothermal reaction temperature
increased by 40°C
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Energy Storage Benefits of ALD
PCT
Conventional
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Common ALD Techniques
• Lithium-ion Batteries
– Particle vs. Electrode
• Particle ALD
• Electrode ALD
Particle - Fluidized Bed
Electrode - Batch
Electrode – R2R Particle – Semi-continuous14
US Patent 9,284,643
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High Throughput Spatial ALD (Particle)
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• Excellent process control• Throughput independent of number of cycle• Scalable
X Cycle
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Particle Advantages
• Cost Effective• Drop in (front-end or back-end)• Excellent quality control• Near-Zero waste• Demonstrated throughput• Robust coatings
High Throughput Spatial ALD (Particle)
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Particle ALD Commercial Roadmap
2012 April 2015 2016/2017
To Be Installed at Production Facilities
1.5 in. 3 in. 6 in.
2018
9-12 in.
$10’s/kg $1’s/kg$100’s/kg$1,000’s/kgPCT, LLC. - Confidential & Proprietary 17
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Example Business Case
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ALD Improvement Comparison – Tesla Battery Cost Reduction in $/kWh/cycle
Target Base Technology Proven ALD improvement
$/k
Wh
/cycle
Tesla
80 kWh of
4.8 Ah NCA
cells
Pack Level: $120/kWh @
300 cycles =
$0.40/kWh/cycle
Pack Level: $120/kWh @ 625 cycles =
$0.19/kWh/cycle
Cathode Level: Sumitomo
NCA (195 mAh/g, 3.7V
nom., $25?/kg), 300 cycles
= $0.116/kWh/cycle
Cathode Level: ALD-coated NCA (190
mAh/g, 3.7V nom., $31/kg], 625 cycles at
4.3V = $0.071/kWh/cycle
Additional energy gain anticipated
using higher purity Sumitomo NCA.
• ALD-enabled cathodes show lifetime benefit and higher capacity (range)
• Can reduce Tesla’s $/kWh/cycle by > 50%
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Summary
• Raw materials can be significantly improved with surface coatings
• ALD is an ideal tool for improving and optimizing raw materials
• Particle ALD is only viable means towards commercialization– Demonstrated 200kg/day
– Excellent nail penetration data in 40Ah packs
– Excellent electrochemical performance in 95Ah packs
– Overall pack cost reduced, at scale
• ALD also has many applications outside of batteries
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• Improved dispersion
• Oxidation Resistance
Materials
• Better catalysts
• Fouling protection
• Bimetallics
Metal Islands
• Better performance
• Longer lifetime
• Safety
Li-Ion Batteries
• Precious metal replacement
• Improved lifetime
Fuel Cells
• NiMH
• MLCC
• Metal-Air
• Super-capacitors
Other EnergyStorage
• Broadband UV protection
• Multifunctional additives
Pigments and
Personal Care
Particle ALD Products and R&D Opportunities
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Thank you
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• Special thanks to the Vehicle Technologies Office (VTO) SBIR Phase I/II program DE-SC0010230 for supporting ALD cathode scale-up efforts
• New DOE (VTO) SBIR Phase I program for ALD-enabled anodes
• Other DOE, Navy, Air Force SBIR programs through additional primary or subcontract awards
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Questions
22www.pneumaticoat.com
7180 W. 117th Ave Unit ABroomfield, CO 80020303.469.3910
James Trevey Ph.DVP [email protected]
David King [email protected]
Bill FleckyVP Business [email protected]
Paul Lichty [email protected]
Systems and Technology Sales and Collaboration
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Low-Gassing PICOSHIELD® NCA – coarse and fine grades
Battery Example 1 : NCA
Benefits include:Reduced gassingLonger lifetimeHigher stability at higher voltagesDrop-in ready
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Long-Life PICOSHIELD® NMC – many compositions
Benefits include:Longer lifetimeIncreased SafetyHigher voltage stability
Battery Example 2 : NMC
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Long-Life PICOSHIELD® MNO – many compositions
Benefits include:Longer lifetimeIncreased SafetyHigher voltage stability
Battery Example 3 : LMNO
Negligible Resistance Buildup at High Temperatures.
Dramatic Safety Improvement!
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