Some ab initio tudies of the physical properties of materials
High-throughput ab initio Computation: The … ab initio Computation: The Materials Project The lack...
Transcript of High-throughput ab initio Computation: The … ab initio Computation: The Materials Project The lack...
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MGI Workshop, Brown University, March 29, 2012
G. Ceder Department of Materials
Science and Engineering, MIT
High-throughput ab initio Computation: The Materials Project
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The lack of materials information slows materials innovation
What are the properties of known materials?
What new, useful materials might exist?
How can I optimize a material over multiple criteria?
X X
Often, experience is the only guide.
X
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We know nothing about most compounds
There are about 50,000 to 200,000 known inorganic compounds
Elastic constants: about 200 compounds!Super conductors "#1000!Dielectric constant " 300-400!
For almost every property we are below 1% in coverage ….
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There are about 50,000 to 200,000 known inorganic compounds
Elastic constants: about 200 compounds!Super conductors "#1000!Dielectric constant " 300-400!
For almost every property we are below 1% in coverage ….
We know nothing about most compounds
Hecataeus world map
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We have the technology to do better …
H! = E!
!
! F = m! a
!
E = mc 2
+ = Basic Compound Properties
3.2V
3. 86 V
3.7 V
3.76 V
4.09 V
Li diffusivity Phase diagrams Surfaces
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Good agreement with experiment: Voltage of materials in Li battery
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Compute once, compute twice, …
H! = E!
!
! F = m! a
!
E = mc 2
Can we compute everything ?!
+
Computing is scalable!
=
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Enabling more efficient materials research and design for the larger materials community
The Materials (Genome) Project!
To calculate as much as we can on everything
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Scaling Property Prediction to all known Inorganic Compounds is within reach
EXAMPLE
Energy of a compound ! 1 CPU day All known inorganic compounds ! 2-3 Million CPU hours
HOPPER (NERSC)
! 36 hrs
1.7 Billion CPU hrs in 2011
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A public Project to compute “all” properties of all inorganic materials!
Formerly the “Materials Genome Project”
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• Fill in ʻmissingʼ property data on all known compounds!
• Assist researchers in predicting new compounds"
• Provide input data to higher order models"
• Enable rapid screening and data mining!
• Provide a design environment"
Goals!Increase the available basic information on compound by orders of magnitude
Why should you not know the elastic constants of every compound, the absorption properties, the crystal structure, the surface energies, … ?
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Team Work and Software Infrastructure
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Team Work and Software Infrastructure
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Team Work and Software Infrastructure
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! ≈ 20,000 (public) compounds and growing daily!! Multiple tools based on computed data!
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Thousands of Ground State Phase Diagrams available at www.materialsproject.org
Li
O
M
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Launched Oct 11 2011
! >1,800 users
! > 5000 phase diagrams generated
! > 6000 structure predictions executed
Usage!
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Some Feedback!
I am so incredibly happy an effort like this exists now... I have been lamenting for years that despite the importance of materials we have remained relatively unaided by the information age. Please please don't stop growing! Cymbet
… I would like to say I am happy to see the creation of this site … CoorsTek
Materials Genome is a wonderful project. Please accept my appreciation to you to release it free and easy to access to all DFT researchers. … Toyota
Ari Kat Pte, Ltd L-3 Communications, Dais Analytic Corp, Lightscape Materials Inc Owens Corning, Spheric Technologies Laser Caldding Services, Johnson Matthey Magna Internationa,l CoorsTe,k Vitrovita, CTC SELEE Corporation, Momentive Performance Materials, Materials Modification, Inc. Delphi Powertrain, U.S. Resistor Inc. Momentive, Mars Mineral, Kennametal, Asemblon, Pratt and Whitney, Rocketdyne Whidden Technical Associates, BMW, HVM Plasma Ltd., Nextron corp. , Ultramet Advanced Materials Solutions, Ultramet, CBW TechServices, Adaptive Computing
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Li+
e-
Volta meets Schrödinger: Li-ion Batteries
!
H" = E"! = -µ/zF
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2!
2.5!
3!
3.5!
4!
4.5!
5!
5.5!
6!0! 50! 100! 150! 200! 250! 300! 350! 400!
Volta
ge (V
)!Capacity (mAh/g)!
oxides! phosphates! borates! silicates! sulfates!
Range of today’s known materials
High capacity tends to be associated with instability of structure
High voltage destroys electrolyte and is associated with lack of safety
High-throughput voltage calculations
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Multiple filters are used to evaluate cathode materials
? Voltage / Energy density
Structural integrity Stability
Safety Li+ diffusivity
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Cathode safety: what can happen if it releases O2!
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Is high voltage related to lack of safety ?
More safe
Less safe
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Which phosphates ?
Higher valence and higher weight of cation
Lower valence and lower weight of cation
1 electron in phosphate (e.g. LiFePO4) ! 170 mAh/g
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Finding novel phosphates with V in them
which elements can substitute for each other ?"
very powerful for materials design "
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New mixed phosphate-pyrophosphate discovered
Chemistry Novelty Energy density vs. LiFePO4
% of theoretical capacity already achieved in the lab
Li9V3(P2O7)3(PO4)2 New 20% greater ~65%
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Calculations predict that Li3M(CO3)(PO4) compounds may be good for Li intercalation. (M = Fe, Mn, Ni, Co)
But NO Li containing carbono phosphates AT ALL are known in nature !
Design of completely new chemical class of cathode materials “Sidorenkites” Li-containing Carbono-phosphates
Made many synthetic carbonophosphates with Mn replaced by Fe, Co, Ni … 27!
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“Sidorenkites” Li-containing carbono-phosphates
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Properties – current and in progress
o Crystal structure!o Ground State phase diagram: open and closed system conditions!o Nanophase stability!o Bandstructure!
o Bandgap!o Mobilities!o Absorption!o Seebeck Coefficient!
o Phonon spectra!o Free energies!o Electron phonon coupling!o Ionic mobility!o Surface energies (vacuum and in water)!o Pourbaix diagrams: corrosion, stability, …!o Point defect energies!o Solubility limits!o Li/Na insertion/conversion voltage!
o Alkaline battery cathodes!o Li-ion battery electrodes!o Na-ion battery electrodes!o Electrolytes!o Rechargeable Mg-ion batteries!o Solid State Ion conductors!o Hg capture from gas streams!o Corrosion/Stability in Water!o Photocatalysts!o Thermoelectrics!
Selection of properties driven by partners and applications
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1. Phase stability (Synthesis) 2. Band gaps (Absorption) 3. Band edges (H2/O2 evolution) 4. Water stability (Device lifetime)
semiconductor water
photon
H2
O2
Predict computational models to predict the four key properties
Water splitting photo catalysts
We systematically developed methods to predict each of these !
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Developed Ab Initio Pourbaix diagrams Predict stability in aqueous solutions
Work led by Kristin Persson LBNL
Calculated Experimental
Applications to photocatalysis, corrosion, hydrothermal synthesis, fuel cells, batteries, etc.
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Ta3N5 clearly not stable in water
Work led by Kristin Persson LBNL
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!
“bringing science solutions to the world”
We have the ability to transform materials R&D
A community materials science project
Mat. Dev.
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Challenges and Observations
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This is a great way of dissemination
New Materials are mostly designed by experimentalists, not by theorist/computational scientist. We need to give them the data and insights, rather than codes
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1.7 Billion CPU hrs in 2011
Computing
Government computing needs to move into the 21st Century
“Efficiency” of computing centers is about keeping processors busy, not necessarily about what is most useful for science
But not available for High throughput computing activity !
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Experimental data
Experimental data in Materials is poorly archived, poorly classified. This makes prediction validation/checking limited to single case comparisons.
This is a very difficult problem, but one that can bring enormous benefits
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Synthesis
Rational Synthesis: Property prediction is maturing fast. We can perceive a future where true computational design of materials is reality.
But can it be made ?
We need to start focusing on the science of how materials are made ?
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Infrastructure
Large characterization facilities are infrastructure Large computing facilities are infrastructure Maybe data warehousing and delivery should also be infrastructure ?
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The Google of Materials Properties is arriving
! Materials are the cornerstone of energy innovation
! Materials properties can be predicted ab initio.
! We will reach the point where basic properties of all materials are computed: A Materials Genome
www.materialsproject.org