Next Generation Energy Storage Technologies · External Use Next Generation Energy Storage...
Transcript of Next Generation Energy Storage Technologies · External Use Next Generation Energy Storage...
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Next Generation Energy Storage TechnologiesSubramanya Herle PhD Director and DMTS Energy Storage Solutions, Office of the CTO [email protected] 2019 NCCAVS Symposium, Holiday Inn, San Jose
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APPLIED MATERIALS
Overview Subramanya Herle Director of Energy Storage Technologies 2019 NCCAVS Symposium, Holiday Inn, San Jose
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OUR VISION Our innovations make possible the technology shaping the future
OUR MISSION
To lead the world with materials engineering solutions that enable customers to transform possibilities into reality
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FOR THE PAST DECADE,
~$1Billion invested annually in RD&E
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Our Story
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FOUNDED in 1967Applied Materials beganin a small industrial unit in Mountain View, California
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AMAT stocklisting onNASDAQ
$17.3 billionrevenue
Headquartered in California’sSilicon Valley
~21,000 employees93 locationsIn 17 countries
semiconductor and display equipment companyWorld’s #1
>12,500patents
$2.0 billionR&D spending
Data as of fiscal year end, October 28, 2018
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Businesses
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Display and Adjacent MarketsSemiconductor Systems Applied Global Services
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Accelerating Innovation
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Thermal
Metals
Deposition
Planarization
EtchInspection
Collaborate earlier and deeperwith customers on inflections
Solve customers’ complex technical challenges with Integrated Materials Solutions (IMS)
Drive materials-enabled scaling to improve PPAC*
with new materials, new structures, new devices
Extend the technology roadmapwith fast cadence in product innovation
Enable faster learning and breakthrough technologiesthrough the Maydan Technology and META Centers
Plating Implant* PPAC = Power Performance Area Cost
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Applied’s Display and Flexible Technology Products
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Thin Film EncapsulationCVD PVD
E-Beam TesterRoll-to-RollE-Beam Evaporation PVD CVD In-Line SEM Review
More Products in the Pipeline that will Triple our Footprint in Display
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Energy Storage Technologies
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Energy Storage Landscape
(Low) Energy (High)
(Lar
ge)
Phys
ical
Siz
e(S
mal
l)Miniature Batteries
(100mWh – 2Wh)Electric watches, calculators,
implanted medical devices
Batteries for Portable Equipment(2Wh – 100Wh)
Flashlights, toys, power tools, portable radio and TV, mobile phones, camcorders, lap-top computers, memory refreshing, instruments,
cordless devices, wireless peripherals
Large Vehicle Batteries (1kWh – 1,000kWh)
HEV/PHEV, Trucks, traction, locomotives
Transportable Batteries(Starting, Lighting & Ignition)
(100Wh – 1,000Wh)Cars, trucks, buses, lawn mowers,
wheel chairs, robots
Stationary Batteries(0.25MWh – 5MWh)
Emergency power, local energy storage,remote relay stations, communication base stations,
uninterruptible power supplies (UPS).
Large Energy Storage(5MWh – 100MWh)
Frequency regulation, Spinning reserve, peak shaving, load leveling
UPS
Regenerative Braking
Lithium-ion
Thin Film BatteriesThin Film Batteries
Stationary
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Sukhvinder Badwal DOI: 10.3389/fchem.2014.00079
Energy Storage Technologies
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Commercially Available Battery Technologies
Cells Batteries
Primary
Zn-MnO2 (dry cells)Zn/Al-air
Zn-NiOOHThermal battery
AgVOxLi-CFx
Li-Thionyl chlorideLi-MnO2
Li-FeS2
Secondary (Rechargeable)
Lead AcidNiMHNiCd
Flow (ZnBr, V-V*, NiFe, Fe/Cr, ZnFe)Organic Flow Battery
Li-ionNaMClx
NaS
Aque
ous
elec
troly
teN
on-aqueous electrolyte
Aque
ous
elec
troly
te
Non-aqueous electrolyte
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DOI: 10.1039/C2EE21892E
Battery Energy Density and Ragone Plot
• Cell chemistry and cell design determines Ragone chart• New cell chemistries needed to increase practical energy density of cells
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Performance Limits of Battery Chemistries
Si/Li metal anode will enable > 1000 Wh/L battery
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Rapidly Falling Costs of xEV Battery Packs
http://www.nature.com/doifinder/10.1038/nclimate2564
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Electricity Storage: Mobility, Transportation and Grid Storage
Global installed grid-connected electricity storage capacity (MW)
Grid: Next big opportunity; cost sensitive & regulated market
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Li-ion Recycling Could Supply Most of Needed Material …Eventually
Ref: Linda Gains, ARNL, International Battery Seminar and Exhibit 2018
Low cost recycling technology is essential for sustainability
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Active Materials
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Factors Affecting Battery Design (Li-ion)
Source: Sony
Graphite/LiCoO2 cell : Typical usage guidelines
Tradeoffs• Energy• Power• Safety• Gas• Cost• Life
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Graphite
Li+
Si Li22Si5
Lithium intercalation, Limited capacity
No C-C bond breaking
Limited volume expansion ~12%
~10% 1st cycle irreversible Li loss
All Si-Si bonds are broken, high capacity
Many Li-Si bonds formed
Large 3D volume expansion (> 300 %)
~30% 1st cycle irreversible Li loss
Li+
Comparison of Anodes
Si
Li+Metallic Li-Li bond, highest capacity
Large 2D volume expansion
LixC6 Graphite
Substrate
SiOxanode
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Next Gen Storage Technologies
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2017-2025 Available Battery Technologies
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Time to Market for New LiB Materials
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Energy Storage Solutions
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Technical Challenges
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Li Dendrite
Li Dendrite
Ref: Prof. Wittingham, 1980
Ref: Prof. Bazant, 2016
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Summary
1. Battery Manufacturing Capacity is Growing Fast>$ 90 Bn investment announcements by automakers till 2030 for EV Global capacity for energy storage is expected to reach 8.6 GW/ 21.6 GWh by 2022, enough to power to electrify roughly 6 million homes
2. Lithium-ion is Becoming the Technology of Choice for Solar-based ESSThe prices for Lithium-based batteries are steadily declining by 8% on an annual basis (the average price of batteries has dropped 80% since 2010), making
solar + storage projects more investment-friendly.3. Asia is On Track to Become the World Leader in ESS
Alternate energy storage technologies available including fuel cell technologies
4. Utilities are Primed to Partner With / Acquire ESS CompaniesThere were four Energy Storage M&A transactions in Q2 2018.
5. Government Incentives for Energy Storage are Driving GrowthAt the federal level, the 30% Investment Tax Credit remains available for energy storage, provided it is coupled with renewable generation
6. Energy Storage-as-a-Service (ESaaS) is Becoming a Key Service Model7. Residential ESS Growth is Outstripping Utility-scale
Residential installations of battery storage beat commercial installations in Q1 of 2018, 15.9 MW to 11.7 MW (almost beat utility-scale installations at 16 MW)8. Levelized Cost of Storage (LCOS) is Emerging as a Popular Revenue Metric
Cost of storing electricity in ESS and divides by the retail price of electricity stored. LCOS has only been in existence for the last 3 years, and this new metric will continue to evolve and provide a standard metric of providing better insights to the financiers9. Ethical Sourcing is Increasingly Critical for Battery Materials10. Recycling of battery and materials is critical for sustainability
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