computational nanoenginering of polymer surface systems
DESCRIPTION
Computational NanoEnginering of Polymer Surface Systems. Aquil Frost, Environmental Engineering, Central State University John Lewnard, Mechanical Engineering, University of Cincinnati Anne Shim, Biomedical Engineering, The Ohio State University. Polymers in the Real World. [10]. [11]. [12]. - PowerPoint PPT PresentationTRANSCRIPT
Computational NanoEnginering of Polymer Surface Systems
Aquil Frost, Environmental Engineering, Central State UniversityJohn Lewnard, Mechanical Engineering, University of CincinnatiAnne Shim, Biomedical Engineering, The Ohio State University
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Polymers in the Real World
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[10] [11]
[12] [13]
Why Simulations?“Because they provide the
freedom to fail!”• Cost• Time
“Assess real-world processes too complex to analyze via spreadsheets or flowcharts”
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[1]
[2]
What can we see?
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Sub-atomi
c
Nano
Meso
Macro
Size
Tim
e
TimelineWeek
1Week
2Week
3Week
4Week
5Week
6Week
7Week
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Training
Literature Review
Create Surfaces
Create Polymers
Run Simulations
Analyze Simulations
Work on Deliverables
Finish Research Paper
Finish Final Presentation
Finish Research Poster
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Programs Used
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Large-scale Atomic/Molecular Massively Parallel Simulator
Visual Molecular Dynamics
POLYMER GENERATION
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What Are Polymers? Consist of repeating
units called “monomers”
Polymer industry is larger than the aluminum, copper, and steel industries combined [4]
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Polymer Adsorption
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Using MATLAB to Generate “On-Lattice” Polymer Chains
-12 -10 -8 -6 -4 -2 0-10
-8
-6
-4
-2
0
2
4
0 1 2 3 4 5 6 7 8-6
-4
-2
0
2
4
6
-8 -7 -6 -5 -4 -3 -2 -1 0 1-8
-7
-6
-5
-4
-3
-2
-1
0
1
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Using MATLAB to Generate “Off-Lattice” Polymer Chains
-1.5-1
-0.50
0.51
-0.5
00.5
11.5-1
-0.5
0
0.5
-0.5
0
0.5
1
0
1
2
3-1.5
-1
-0.5
0
0.5
1
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CREATE SURFACES
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Surfaces
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1. Regular, Rough
Oscillations in the x direction: 1Oscillations in the y direction: 1Amplitude: 0.5
Oscillations in the x direction: 2Oscillations in the y direction: 2Amplitude: 0.1
Surfaces
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2. Random, Rough
Roughness Factor: 0.9Roughness Factor: 0.1
Testing Surfaces
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www-ee.ccny.cuny.edu
Face Centered Cubic with MATLAB
3 rows, 3 columns, Depth of 1 16
Face Centered Cubic with MATLAB
3 rows, 3 columns, Depth of 1 17
Problems?It’s not that simple!
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Brownian FieldsCreated Using FractalsFractals are a mathematical
concept:◦Self similar with a change of scale
(magnification)
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Brownian Field Uses FractalsSince Brownian Field has holes or
gaps we have simulated a FCC structure using fractals:
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Surface AreaUsing axb = IaIIbIsin(Ø) (Area)
we find area between those two vectors.
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RUN SIMULATIONS
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LAAMPS File
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Polymer Adsorbing onto Surface
0 2 4 6 8 10
0
5
10-20
-10
0
10
20
30
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Polymer is randomly placed around surface while data is taken
http://www.technewsworld.com/story/71829.html
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Polymers are Constantly Moving
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Surface
RUN ANALYSIS
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AnalysisIn order to receive usable data – all
variables must be controlled except oneIndependent Variable:
◦RoughnessDependent Variables:
◦Entropy◦Energy
Controlled Variables:◦Surface Area◦Polymer make-up◦Surface make-up
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EntropyEntropy – How
many options does the polymer have?◦ At bottom of
trough – the polymer is compact - order Not many options
◦ At top of trough – the polymer is free to move - chaos A lot of options
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Energy vs. Distance Analysis – “The Sweet Spot”
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Lennard Jones Potential Equation
[2]
Energy (v) is a function of distance (r).Interactive Force (Epsilon)Diameter of atom (sigma)
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Lennard Jones Potential Equation
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EnergyDistance
What does this analysis tell us?
The extent at which a polymer exists at a certain entropy level◦Depends on roughness
The distance that leads to the lowest energy potential◦Where is that “sweet spot?”
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Example:
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http://www.naturalcosmeticnews.com/recent-news/pg-introduces-pantene-plant-based-plastic-bottles/
Conditioner!
How does this information help us?In the development of
conditioner:◦What is the total change in entropy
of the conditioner when adsorbing onto hair?
◦What is the distance from conditioner to hair that achieves the lowest energy level?
If P&G knew these things they could make better conditioner!
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What will this save?
Time
Effort
Money
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[7]
[8]
[9]
Works Cited[1] (2010). “Polymers”, Chemical of the Week, <
http://scifun.chem.wisc.edu/chemweek/polymers/polymers.html>(May 31, 2013).
[2] (2010). “Lennard-Jones Potential”,UCDavisChemWiki, <http://chemwiki.ucdavis.edu/Physical_Chemistry/Quantum_Mechanics/Atomic_Theory/Intermolecular_Forces/Lennard-Jones_Potential>(May 31, 2013).
[3] (2012). “Solutions: Simulation Software Overview.” Imagine That!, <http://www.extendsim.com/sols_simoverview.html#monteCarlo>(May 29, 2013).
[4] (2012). “What are Polymers? , MAST, <http://matse1.matse.illinois.edu/polymers/ware.html>(May 31, 2013).
[5] (2013). “Why Simulations?” TATA Interactive Systems, <http://blog.tatainteractive.com/2013/01/why-simulations.html>(May 29,2013).
[6] Landau D. P. Binder K. (2000). “Introduction,” “Simple Sampling Monte Carlo Methods ,“Monte Carlo Simulations in Statistical Physics, Press Syndicate of the University of Cambridge, Cambridge, United Kingdom, 1-6, 48-67
[7] http://www.empowernetwork.com/teameaglefreedom/blog/the-clock-is-ticking-tic-toc-tic-toc/
[8] http://emotibot.net/?i=504
[9] http://www.merchantcircle.com/business/National.Lawsuit.Funding.302-792-1400/picture/view/3137972
[10] www.idahofamilyvision.com
[11] www.plasticstoday.com
[12] carterpaintingboulder.com
[13] www.pennysimkin.com36