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SANS from Polymers R.M. Briber, University of Maryland
Outline of Talk
Example ExperimentsChain conformation
Rg in thin filmsRg of unusual architecture polymers
Thermodynamics, phase diagrams and interactionsPolymer BlendsBlock copolymers
Introduction to Polymers and SANS
Summary
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Chain Conformation
Chain Conformation
v = 3/5 good solvent1/2 theta solvent or melt1/3 collapsed (constant density)
Other conditions
� Typical Rg for most polymers 50-500Å -perfect size scale for SANS
� Rg controls many structural features in polymers
For a Gaussian Chain
Rg2=Nl2/6 (general scaling: Rg~Nv)
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Scattering from a Gaussian chain (Debye function):
P(q)= 2
x 2exp(−x)−1+x( ) x =Rg
2q2
Chain Conformation -cont.
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Chain Conformation -cont.
Scattering function for a Gaussian star molecule
H. Benoit; J. of Polymer Science, 1953, 11, 507-510
P qx
xf
xf
xff( )
exp( )exp( )= −
− −( )+ − −( )
−( )2 11
2
2 1
2
xRg q
fg f
fg= =−( )
2 2
2
3 2 f is the number of arms
P qx
x hh xw
nn
n
h
( ) = − ++
21
2
hNN
w
n
=
−
1
1
x N l q R qn n g n= =2 2 2 26/
where
N n number average degree of polymerization
N w weight average degree of polymerization
Debye Function with a Zimm-Schulz molecularweight distribution
K. Mori, H. Hasegawa, T Hashimoto; Polymer, 1989, 30, 1389
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Thermodynamics of Polymer Blends
∆fmixkT
a aNa
b bNb
a b= + +φ φ φ φ
φ φ χln ln
Flory-Huggins Free Energy of Mixing
Entropy of mixing Enthalpy of mixing
χ
χ
:
~
Flory interaction parameter
1/T
Miscible binary polymer blend
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Thermodynamics of Polymer Blends
knI q N P q N P qa a a b b b( ) ( ) ( )
= + −1 1
2φ φ
χ
de Gennes Random Phase Approximation (RPA) for binary polymer blend
kn neutron contrast factor
lim( )
/knI q N N
f kTa a b b→
= + − =0
1 12
2
2φ φχ
∂∂φ∆ Flory-Huggins ∆f
Equation of the spinodal line
I q k NP qn( ) ( )= −( )φ φ1
2 identical polymers (one labeled), no interactions (χ=0)
2 polymers, different molecular weights, with interactions (χ≠0)
q=0 limit
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Thermodynamics of Polymer Blends
Measure SANS at T1, T2, T3
knI q N P q N P qa a a b b b( ) ( ) ( )
= + −1 1
2φ φ
χ
I q K Iq
( )( )
=+
0
1 2 2ξ
Expand P(q) in small q limit and RPAform reduces to O-Z form (Lorentzian)
RPA eq.
ξ φ φ χ χ22
1
36= −( )[ ]−l
a b s
withl
l la b
a
a
b
b
2
2 2
= +
φ φφ φ
χφ φs
a a b bN N= +
1
2
1 1
correlation length
average statistical step length
value of χ parameter at spinodal
RPA scattering (~Lorentzian shape)
Linearized scattering (O-Z or Zimm plot)
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Thermodynamics of Polymer Blends
SANS data from a polymer blend
knI q N P q N P qa a a b b b( ) ( ) ( )
= + −1 1
2φ φ
χ
Fit the data with RPA equation
average segment lengthχ Flory interaction parameter
Fitting parameters:
l
Calculated parameters:ξ concentration fluctuation correlation lengthI(0) zero angle scattering
Known parametersNi chain lengthφ2 composition
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Thermodynamics of Polymer Blends
Determine Phase Diagram
Mean-field scaling of ξ and I(0)
I(0)-1→0 as T →Ts ξ-2→0 as T →Ts
χ → χs as T →Ts
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Thermodynamics of BlockCopolymers
Block Copolymer Morphology
A block = polystyrene B block = polybutadiene
A/B Block copolymer
A & B are thermodynamically incompatible
A-B junction between blocks leads to MICROPHASE SEPARATION
Microphase separation: phase separation constrained by size of blocks
Gyroid HPL
Increasing A block content (f)
Microphase separation morphology
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Thermodynamics of BlockCopolymers
kI q
P P PP P P
n aa bb ab
aa bb ab( )=
+ +( )−( )−2 2χ
Leibler Scattering function for a diblock copolymer (single phase region)
L. Leibler; Macromolecules, 1980, 13, 1602-1617G.H. Fredrickson, E.Helfand, J. Chem. Phys., 1987, 8791), 697
withP f x
xfx fx( , ) exp( )= + − −( )2
12
x R qg= 2 2 f NN N
aa b
= +
I(q*) →∞ as χ→χs
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Examples -Chain Conformation
� Objective: Characterize polymer chain conformation in ultra thin films (film thickness < 2Rg)
! Polymer chain conformation in ultra thinfilms is a fundamental physical questionwhich remains open
! Development of the technique of small angleneutron scattering (SANS) for the study ofthin polymer films
! Polymer conformation plays a critical role infilm wetting, adhesion and coatings
R.L. Jones, S.K. Kumar, D.L. Ho, R.M. Briber, T.P. Russell,Nature, 1999, 400, 146
Polymer Chain Conformation in Ultra thin Films
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�Approach�Use SANS to measure the radius ofgyration (Rg) of the polymer chain inultra thin films on Si wafers (neutrontransmission of Si ~ 0.999+)
�Mixtures of deuterated polystyrene andnormal polystyrene. Deuterium labelingprovides neutron contrast. 25 d-PS/75 h-PS composition.
Examples -Chain Conformation
Thin films are spun on 1� Siwafers (0.75� neutron beamdiameter)
For stacks of 25 wafers with afilm thickness of 10nm totalpolymer sample is ~ 0.2 mg
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Examples -Chain Conformation
Results:Rg in plane of film remains unchanged down to filmthickness ~1/2 Rg!
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Examples -Chain Conformation
Implications-Chain conformation in x,y,zdirections are independent- Higher segment density insidecoil volume for thin films(D<2Rg)-Less entanglements per chain inthin films- Different chain dynamics in thinfilms
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Examples -Chain Conformation
Characterization of Arborescent Graft Polymers
� Objective: Characterize the behavior of arborescent graft polymers in solutions and in blends with linear polymers
� Arborescent graft polymers are new moleculeswith an unusual chain architecture. The goal isto use small angle neutron scattering to measurethe size and shape in solutions and blends.
� The characterization of the size, shape anddensity profile of arborescent graft polymers willprovide insight useful for tailoring them to meetend use requirements as unimolecular micelles,drug delivery vehicles and flow modifiers.
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�Approach:� Use small angle neutron scattering to
measure Rg and ρρρρ(r) in solutions andblends.
� Deuterated solvents and linear polymersare used to provide neutron contrast.
Examples -Chain Conformation
AFM Image
AFM micrograph of a film of 3rd generationAGP molecules synthesized from 30k Mw PSbranches.
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Examples -Chain Conformation
I q k NP qn( ) ( )= −( )φ φ1
Dilute Solution: -Rg of AG polymer from Guinier Analysis
I q kR q
ng( ) exp= −( ) −
φ φ1
3
2 2
In the small q limit, P(q)→exp(-Rg2q2/3)
Plot ln I(q) vs. q2
Scaling of Rg with Mw of the form Rg~Mνννν with νννν=0.25which indicates that arborescent graft polymers becomemore dense with increasing size (molecular weight).
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Examples -Chain Conformation
Model density profile ρα
r rR( ) = −
1
max
Calculate scattering (with instrumentaland size distribution smearing)
I q r qrqr
r dr( )sin
= ( ) ( )
∫ ρ 2
S. Choi, R.M. Briber, B.J. Bauer, D.-W. Liu, M. Gauthier; Macromolecules, 2000, 33(17), 6495-6501
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Examples -Block Copolymers
Phase mixing on heating (UCOT)
I(q*) →∞ as χ→χs (not reliable)
FWHM broadens in single phase
27K PS-b-poly(octylmethacrylate) 23K PS-b-poly(octylmethacrylate)
Fit to Leibler scattering function withχ, l as fit parameters
A.-V. Ruzette, A.M. Mayes, M. Pollard, T.P Russell, R. Jerome, T. Slawecki,R. Hjelm, P. Thiyagarajan, Macromolecules, 1998, 31, 8509-8516
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Examples -Block Copolymers
Pressure Effects on the Ordering Transition in Block Copolymers
M. Pollard, T.P Russell, A.-V. Ruzette, A.M. Mayes, Y. Gallot,Macromolecules, 1998, 31, 6493-6498
� LCOT block copolymer disorders with increasing pressure� Allows for the intelligent design of a baroplastic elastomer Baroplastic Elastomer
85K d-PS-b-poly(n-butyl methacrylate)
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Examples -Polymer Blends
Chain Conformation in Dilute Polymer Blends
Sariban and Binder, Mackromol. Chemie,1988, 189, 2357
High T Low T
Simulations of Rg ~ f(T) in dilute blends
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Examples -Polymer Blends
knI q N P q N P qa a a b b b( ) ( ) ( )
= + −1 1
2φ φ
χ
Fit the data with the RPA equation
average segment lengthχ Flory interaction parameter
Fitting parameters:
l
R.M. Briber, B.J. Bauer, B. Hammouda; J. Chem. Phys., 1994, 101(3), 2592
S. Choi, X. Liu, R.M. Briber; J. of Polym. Sci., Polym. Phys. Ed., 1998, 36, 1
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Examples -Polymer Blends
d-PS/PVME Blend
A2 and χ vs. T Rg vs. T
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Examples -Polymer Blends
χχχχ vs. φφφφComparison of SANS data forχ for dilute blends with:
� data extrapolated from separatestudy at higher concentrations
� calculated values of χ frommodified F-H lattice model
Han, C.C., et al.; Polymer, 1988, 29, 2002
Dudowicz, J.; Freed, K.; J. Chem. Phys., 1992, 96, 1644, 9147
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Examples -Polymer Blends
Collapse Transition in Dilute Blends
α2
2
2=
( )( )R
Rg
go
N: dilute speciesx: matrix species
Prediction by Theory d-PS/PVME data
Interesting range of prediction notaccessed experimentally
E.A. Di Marzio, R.M. Briber; Macromolecules , 1995, 28, 4020-4023
Theory shows change in transition from2nd order→1st order with increasing matrix mol wt. (x)
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Summary
SANS of Polymers
� Examples of chain conformation (thin films, arborescentgraft polymers)
� Examples of thermodynamics (blends, block copolymers)
� Comparison of experiments with theory (blends, blockcopolymers)
� q range accessible in SANS matches intrinsic sizescale of polymer (Rg) which controls manystructural and physical properties