Reliability of Li-ion Batteries - IEEE Entity Web...
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Reliability of Li-ion Batteries
Martin Z. Bazant Chemical Engineering & Mathematics
MIT
IEEE Boston Reliability Seminar 9/11/13
Dan Cogswell Todd Ferguson
Alan Millner Prior funding (2008-12)
Matthew Pinson Peng Bai
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Group Overview
• Nonlinear dynamics of electrochemical systems
• Physics + Mathematics + Engineering
• Theory + experiment
Membraneless
HBr flow battery
for large scale
energy storage
Templated
electrodeposition
for batteries,
nanotechnology Shock
electrodialysis
for water
desalination,
separations
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Battery performance and reliability
under diverse operating conditions
Extreme C Rates
Extreme Temperatures
Control Failures
Images: Autoblog Green, Gas 2, Boeing, Reuters
Tory Aardvark, Cosmos Magazine
Dreamliner
Need for predictive
mathematical models
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Multiscale
Battery
Physics
Image: P. Bai, G. Ceder
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Capacity Fade in Li-ion Batteries
• Dominant fade mechanism at high voltage:
Solid electrolyte interphase (SEI) growth
• Electrolyte decomposes at the anode
(graphite) during recharging (>0.8 V)
• Apply new models to literature data for full
cells with graphite, silicon anodes
Matthew Pinson (PhD student, Physics)
“Theory of SEI formation in rechargeable batteries: Capacity fade, lifetime statistics,
and accelerated aging”, MP & MZB, J. Electrochem. Soc. 160, A243 (2013).
“Internal Resistance Matching for Parallel-Connected Lithium-Ion Cells
and Impacts on Battery Pack Cycle Life”, R. Gogoana, MP, MZB and S. Sarma.
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Argonne Lab cse.anl.gov
Typical Electrolyte
LiPF6 salt
Organic solvents
EC
DMC
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Two parameters:
k SEI reaction rate
D solvent diffusivity in SEI
Simple Model of SEI Growth
r
m
ds
dt= k(c- Dc) = D
Dc
s
s ~kt
Dt
ì
íï
îï
early times
late times
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Theory of Accelerated Aging
Fit D(T), k(T) over
3 months at 30-60oC
Accurately predict capacity fade
over 15 months for 15-60oC
Experimental data of Smith et al, J. Electrochem. Soc. (2011). Graphite/LiFePO4
(Data also fitted for Graphite/LiCoO2)
D ~ e-E/kT
E=0.52V
(close to
direct expts)
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Porous Electrode Model
• Macroscopic mass, charge conservation, Butler-Volmer
kinetics for intercalation & SEI growth; Solvent diffusion
across SEI layers
• Results
– SEI grows very uniformly
– Isothermal fade depends only on cycle time
– Current dependence due to heating
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Experimental data for Si cells from Ji et al., Nano Energy, 2012.
SEI Capacity Fade Mechanisms
Fastest fade (silicon):
300% volume
expansion creates fresh
area; repeat SEI growth
model each cycle
Slowest fade (graphite):
Attached SEI
Intermediate fade:
SEI delamination
cycles × period
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Lifetime Statistics
Dielectric breakdown statistical theory J. Le, ZP Bazant, MZ Bazant, J Appl Phys (2011)
Data: J. I. Park et al, Korean J Systems Eng (2008)
DB of oxide thin films
Li-ion batteries
Gaussian lifetime
statistics for SEI growth
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Effect of Statistical Variability on
Reliability of a Battery Pack
• Rate dependence from localized heating (accelerated aging)
• Resistance variations lower pack cycle life (large max current)
• Test model for A123 battery packs (R. Gogoana, S. Sharma, Mech Eng)
Two cells in parallel
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MIT / Lincoln Lab Project Peng Bai, Alan Millner
Arbin High Current
Battery Tester
Altairnano 13Ah
Prismatic Battery
Titanate anode
Low voltage (1.5-
2.8 V)
“strain free”
A123 26650
Cylindrical Cells
Graphite anode
Controlling PC and
Testing Interface
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Complete Testing System
Thermal
Chamber
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Altairnano @5C/5C
Fan
cooling
Temp.
Chamber
3 months
Slow SEI
growth?
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From Fade to Failure
• Dendritic Li growth (cold, fast charge)
• Thermal runaway, fire… (short)
• Mechanical deformation causing
– Loss of electric contacts
– Damage in solid active particles
– Leakage, contaminant entry
• Side reactions
– Corrosion (moisture)
– Leaching cathode ions (Fe, Ni…)
Need for physics-based predictive models
Batteryuniversity.com
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Test Case: LiFePO4
• 1997: “Low power” LixFePO4 (J. Goodenough)
• 2000s: Doping, coatings, nanoparticles… (Y.-M. Chiang)
• 2009: “Ultrafast” 10 sec. discharge (G. Ceder)
Why is nano so different? - Phase separation?
- Role of surfaces?
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“This material is very good for low
power applications; at higher current
densities there is a reversible
decrease in capacity… associated
with the movement of a two-phase
interface.” - Padhi, Nanjundaswamy
& Goodenough (1997)
Lithium Iron Phosphate
Shrinking Core Model Srinivasan & Newman (2004)
Tarascon et al (2001)
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Chen & Richardson (2006)
What Shrinking Core?
Phase boundaries
along the surface
1D ion transport
Morgan, van der Ven Ceder (2004)
Ramana et al (2009) Badi et al (2011)
<100nm particles
fast diffusion (ms)
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Elastic Coherency Strain
coherent incoherent
DA Cogswell & MZB, ACS Nano (2012)
Loss of c-axis coherency coherent phase separation
Ramana et al (2009) Chen et al (2006)
l =g L
Df
Stripe spacing
+
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Suppression of phase separation at high rates
100x100 nm
Slow discharge
I/I0=.001
~C/50
Fast discharge
I/I0=.3
~7C
Dan Cogswell & MZB, ACS Nano (2012)
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Nucleation at Nanoparticle Surfaces
Dan Cogswell & MZB, Nano Letters (2013)
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Accurate Model of LiXFePO4
23
Data:
Wagemaker et al.
JACS, 2011
Data:
Meethong et al.,
ESSL, 2007
30x30 nm
• Ab initio elastic
constants, misfit strain,
surface energies (Ceder)
• Only 2 fitting params
W = 4.51,k = 8.90 l =g L
Df
3. Stripe spacing
4. Nucleation barrier vs. size
1. Li solubility vs size
2. Li solubility vs Temp.
Dan Cogswell, MZB, ACS Nano (2012)
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Porous Electrodes
• Low current (i/io=0.01, ~C/2)
– narrow reaction front
– mosaic instabilities Dreyer et al, Nature Mat. (2010)
Todd Ferguson and MZB,
J. Electrochem Soc (2012)
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Small voltage step
Csolid(x,y,t) Celectrolyte(x,y,t)
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• Large current (i/io = 4, ~80C)
– Suppressed macroscopic phase separation
– Electrolyte depletion leads to capacity loss
Solid concentration Electrolyte concentration Voltage
Fast Discharge
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Size-Dependent Nucleation
Todd Ferguson
Only fit variance of particle size
• Downward tilted voltage plateau
• Excellent fit to Dreyer (2010) data
• Next: Chueh et al (2012) data
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Ohkura 1993
Three Stable Phases:
LixC6 (Graphite)
Model: Two periodic layers,
4 species regular solution
c1c2
c2
c1
X =1
3X =
1
2X =1
S. J. Harris et al,
Chem Phys Lett
(2010)
graphite electrode
“unrolled”
http://lithiumbatteryresearch.com/
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Simulation vs.
Experiment
Red/blue interface
position vs time
(no fitting!)
Only fitting parameter
Tortuosity = 0.4
T. Ferguson, MZB (2013)
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Conclusion
• New physics-based models can inform:
– Performance and reliability prediction
– Battery design
– Characterization and testing
– Control systems
• Must capture:
– Nonequilibrium thermodynamics
– Reaction kinetics
– Electrolyte side reactions
electrolyte
+ FePO4
LiFePO4
Li+
www.mit.edu/~bazant
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Rate-Dependent Morphology of
Li2O2 Growth in Li-air batteries
400 nm
400 nm
(b)
(c)
(a)
200 nm(a)
(b) 400 nm
B. Hortsmann, B. Gallant, R. Mitchell,
Y. Shao-Horn, MZB (2013)