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Multidetector GPC Characterization

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If GPC really separates by SIZE, which chain dimension correlates with elution order? ... Viscometers as GPC detectors are based upon the measurement of a ... – PowerPoint PPT presentation

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Title: Multidetector GPC Characterization


1
Multi-detector GPC Characterization
  • Drew Poche

2
Outline
  • Basics-On the mechanism of GPC
  • Detection
  • Light Scattering
  • Viscometry
  • Putting it together- multi-detector GPC
  • Lots of numbers-Whats it good for?

3
How big is big?
  • Drew Poche
  • Materials Characterization
  • Dow Chemical, Plaquemine

4
Alphabet Soup
  • SEC-Size Exclusion Chromatography
  • Includes rigid stationary phases
  • GPC-Gel Permeation Chromatography
  • Soft gel stationary phases
  • GFC-Gel Filtration Chromatography
  • Separation of biological molecules (natures
    polymers) in an aqueous environment

5
HPLC? You bet.
Mobile phase pump auto-injector
column(s) detector(s) data acquisition
Temperature control
6
Putting it in perspective
  • Typical organic molecule vs typical polymer
    molecule

Measuring size and molar mass
  • Mass spec
  • GC-MS, LC-MS
  • NMR
  • Modeling, quantum
  • mechanics
  • Other colligative
  • property based
  • measurements

EASY
TOUGH
7
Polymer standards--Column Calibration
8
Can it get worse?
  • Typical synthetic organic molecules in a pure
    sample are all the
  • same molar mass
  • Typical synthetic polymer molecules in a pure
    sample may differ not only
  • in molar mass but also in molecular shape

Ordinary small molecule sample
Ordinary synthetic polymer sample
9
GPC Mechanism
Wiggling (chain conformations) determines average
dimensions and pore permeation
Eliminate enthalpic interactions Entropic
effects alone govern
10
Getting it right
  • Problems, Problems
  • Polymer chains are not created equal

Mc

Ma
Mb

Vc
lt
Va
Vb
gt
  • Solutions
  • Absolute molecular weight detectors (light
    scattering, viscometry)
  • Universal calibration

11
Bent out of Shape
First, lets select a couple of chain
conformations... Then, stuff them into a
confined space and see what happens
Center of mass too close to wall
Forbidden conformation
Allowed conformation
Loss of conformational entropy dictates
partitioning between pore and non-pore space
12
Lets clarify
Bottom line
or
13
Who wants to be a millionaire?
  • If the polymer chains are restricted to one
    configuration (e.g. rods), what drives the
    partitioning between pore space and non-pore
    space?
  • a) rotational orientation b) pore gremlins
  • c) theres no such thing as rod d) Huh?
  • shaped chains

14
If GPC really separates by SIZE, which chain
dimension correlates with elution order?
For the million dollars.
  • I dont know
  • Its a rather complicated question because pore
  • characteristics and chain geometry influence the
  • magnitude of the equilibrium constant, KGPC
  • Leading candidates
  • radius of gyration, Rg
  • hydrodynamic volume, Rh3 or Vh (universal
    calibration)

15
Column selection
FIPA
16
Making sense of the chromatogram
  • Synthetic polymers are composed of a distribution
    of chain sizes
  • We use statistics to get average dimensions to
    describe the bulk sample
  • Commonly computed from GPC Mn the arithmetic
    mean
  • Mw weight average
  • Computing Mw and Mn is sensible since these
    averages fall out naturally from experiments
    used to measure molar mass
  • Mn from colligative or counting methods (NMR,
    osmometry, and those boring experiments you did
    in freshman chem)
  • Mw from methods sensitive to molecular size (LS,
    centrifugation)

17
Time to count
18
Where do ni and Mi come from?
19
Multiple numbers of standards Column Calibration
  • Thats one source of Mi

Problem only equivalent Mi is obtained
20
E pluribus unum
  • Universal Calibration
  • Gives molar mass without regard to chain
    architecture
  • Valid? Nearly always.
  • Suggests L ? Vh

21
Wait a minute!
  • If I dont know how M and h are related for my
    polymer, how do I use universal calibration?
  • YOU DONT
  • Mark-Houwink (empirical power law)

22
too much dancing and not nearly enough
prancing... C. Montgomery Burns, commenting on
GPC prior to molar mass sensitive detectors
  • Visible light scattering used for polymer
    characterization has been around almost as
  • long as chemists have believed in polymers
  • However, GPC detectors based upon the technique
    are relatively new (1970s)
  • Light scattering, by its nature, returns the
  • weight average molar mass

23
Visible Light vs. polymer chain
Particle view Incident light pushes
electrons, producing transient dipoles Thermo
view Incident light couples to
concentration gradient found in real solutions
24
How to get Mw from the measurement
Scattering contains dn/dc
Particle form factor
MALLS uses Eq 1 and 2 and returns Mw and Rg LALLS
and RALLS use Eq 3 and return Mw caveat RALLS
requires a shape correction when Rg approaches
(lo/50)n
25
How LS returns other molar mass averages
  • Simple assumption.monodisperse fractions
  • from the GPC columns. Therefore,
  • Mw,i Mi
  • This assumption may lead to an over-estimation of
    Mn

26
Im going to describe the apparatus first before
I set it motion. Then youll be able to follow
the proceedings better. Franz Kafka
  • Advantages
  • MALLS gives molecular architecture information
    without assumptions IF there is a measurable
    angular dependence on the scattered light
    intensity
  • RALLS is more forgiving of dusty samples
  • and returns essentially the same information
    as LALLS IF the polymer is small compared to lo
  • LALLS is more sensitive, requires no correction
    over a huge range of molar mass

27
Do you suppose, the Walrus said, that they
could get it clear? I doubt it, said the
Carpenter, and shed a bitter tear.
Lewis Carroll
DUST, GELS, or assorted particulate vs. Light
Scattering
28
Column Calibration? Not!
29
Specific refractive index increment
  • The bigger the better
  • Depends on
  • solvent
  • temperature
  • light wavelength

Dn n - no
If polymer solvent combo is isorefractive, no
scattering will be observed
30
Why dn/dc matters
31
The plot thickens-Viscosity
  • Viscometers as GPC detectors are based upon the
    measurement of a differential pressure between
    pure solvent and polymer solution
  • ? ? hsp

32
How to get hi
  • Software computes both hsp,i and hrel,i
  • Solomon-Gottesman
  • hi 21/2(hsp,i-ln(hrel,i)1/2/c
  • Important point hsp and hrel are concentration
    dependent
  • h is, by definition, a zero
    concentration property

33
Like LS, the viscometer is sensitive to bigger
chains
34
All that work for two numbers?
  • Re-visit universal calibrationunits analysis
  • Mw x h ? (Rh)3
  • gmol-1 x cm3g-1 cm3mol-1
  • From two simple measurements we can estimate size
    or volume!
  • Implication chain architecture elucidation

35
Let the fun begin
  • Getting Mi and ni from GPC fractionation mean
  • Rapid M-H relationships
  • Molecular architecture determinations
  • Calculation of other polymer dimensions
  • Correlation to physical properties
  • Identification of tiny fractions of high molar
    mass material

36
From a few months to a few minutes!
37
Behold the Power of M-Hh KMa
  • a parameter approaching 0 spheres
  • 0.5 theta condition for linear chains
  • 0.7-0.8 expanded coils
  • 1.8 ideally rigid rod
  • a may or may not change with branching
  • K parameter shifts with comonomer
    composition or branching density

38
What happens when branches are present
Star branched
39
Had enough?
More commonly encountered long chain branching
Have you noticed that the hydrodynamic dimensions
of a branched polymer are shrunken compared to
its linear counterpart?
40
Branching? YIKES!
  • Triple detection GPC measurements (LS,VIS, DRI)
  • Determine h-Mw relationship (M-H values)
  • Compare h-Mw relationship to that of a linear
    sample
  • Apply appropriate branching model to calculate
    branching density
  • Possibilities star, off-center star, comb,
    random long chain branching, H, super-H, Pom-Pom

41
Dependence of Performance Properties on Molar Mass
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