HPLC2010 Characterization Of Short Chain Branched Polyolefins By GPC-FTIR
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Transcript of HPLC2010 Characterization Of Short Chain Branched Polyolefins By GPC-FTIR
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Characterization of Short Chain Branched
Polyolefins by SEC/GPC-FTIR
William W. Carson; David Dunn; Jim Dwyer;
Ming Zhou; Tom Kearney
Spectra Analysis Instruments, Inc.
June 20, 2010
Contact: [email protected]
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HPLC2010 Boston: P2422M
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GPC-IR Hyphenated System
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How Does It Work?
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How is the Solvent Removed?
Cyclone
Evaporator
Thermal NebulizationFrom LC
Nitrogen Addition
Chilled
Condenser
Waste Solvent
Particle Stream to DiscovIR
Air Cooled
Condenser
Cyclone
Evaporator
Patent pending:
PCT/US2007/025207
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What is Direct Deposition FTIR?
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Direct Deposition FTIR and Data Processing
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LC-IR Hyphenated Technology for Polymer Analysis
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Features of DiscovIR-LC
Online Fully Integrated System
Fully Automated Operation: No Fractionation
Multi-Sample Processing: 8-40 Hr ZnSe Disk Time
Microgram Sensitivity at Sample Injection Point
Real-Time Chromatography & Spectral Data
Solid Phase Transmission IR Spectra: High Quality w/ Purified Analytes
Database Search Capability & In-House Library Creation
Data Analysis: GRAMS for Chemometrics, 3D LC-IR, Functional Group
Chromatograms & Comparisons at any Wavenumbers or across Peaks
All LC Solvents: Water, ACN, Methanol, THF, Chloroform, HFIP
GPC/SEC: TCB @ High Temperature (150C)
HPLC: Isocratic or Gradient; Normal & Reverse- Phase
Compatible with LC-MS Set-Up in Parallel
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HT GPC-IR Test Conditions
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GPC: Waters 150C
Solvent : TCB
Temperature: 145C
Column: Jordi DVB Mix Bed 25cm x 1cm Size 5 mm
Flow Rate: 1 ml/min
Sample: 2.5 mg / ml with 200ppm Irganox 1010
Injection Volume: 100 ml
Transfer Line Temperature: 150C
DiscovIR-LC Conditions:
• Cyclone Temperature: 375C
• Chamber Vacuum: 2 Torr
• Disk Speed: 3 mm/min
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High Temp GPC-IR Spectra for
Polyolefin Branching Analysis
Ethylene-Propylene Copolymer (40% PP), Solvent TCB @ 150C
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High Temp GPC-IR for Polyolefin Branching Analysis
Polyethylene Sample with & without TCB Solvent
DiscovIR-LC Removes TCB Completely and Gives Clean IR Spectrum (Blue).
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GPC-IR Branching Analysis of Ethylene-Propylene Copolymers
Copolymer Compositional Drift ~ CH3 Branching ~ Peak Ratio A1378/A1468
GPC-IR Chromatogram of EP Copolymer Overlaid with Peak Ratio Abs1378/Abs1468
(Molecular Weight Distribution)
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GPC-IR Spectra of Ethylene-Hexene Copolymers
Butyl Branching ~ Peak Ratio A1378/A1368
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Butyl Branching Analysis of Ethylene-Hexene
Copolymers by GPC-IR
Butyl Branching Numbers per 1000 Backbone Carbons with Elution Time (MWD)
(Molecular Weight Distribution)
N butyls/1000 c
10
12
14
16
18
20
22
24
26
8 9 10 11 12 13 14 15
elution time, min
N b
uty
ls/1
000 c
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Area Ratio = Area (2940-3100cm-1) / Area (2940-2800cm-1)
GPC-IR Branching Analysis of
Ethylene-Propylene Copolymers GPC-IR Chromatograms Overlaid with Area Ratios
(Molecular Weight Distribution)
Higher Sensitivity than Peak Ratio Method at Low Branching Levels
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Area Ratio = Area (2940-3100cm-1) / Area (2940-2800cm-1)
GPC-IR Branching Analysis of Ethylene-Octene
Copolymers by Chemometrics
GPC-IR Chromatograms Overlaid with Area Ratios
(Molecular Weight Distribution)
Higher Sensitivity than Peak Ratio Method at Low Branching Levels
EP(~40%)
HDPE
EO (~3%)
EO(~2%)
EO(~1%)
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Area Ratio = Area (Peak 1375 cm-1) / Area (Peak 1465 cm-1)
Branching Levels (Area Ratios) with a GPC-IR Chromatogram
(Molecular Weight Distribution)
GPC-IR Branching Analysis of Dow ENGAGE® Polyolefins
Ethylene-Octene: 8100, 8200
8401, 8540
Ethylene Propylene: ENR 6386
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Sample 3 is a mixture of polypropylene homopoylmer,
ethylene/propylene copolymer & ethylene/butene copolymer
Polyolefin Mixture Analysis (De-Formulation) by GPC-IR
ethylene/propylene copolymer
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Sample 3 is a mixture of polypropylene homopoylmer,
ethylene/propylene copolymer & ethylene/butene copolymer
Polyolefin Mixture Analysis (De-Formulation) by GPC-IR
GPC-IR Chromatogram with Specific Wavenumbers
PP & EP
EP & EB
Isotactic PP
EB
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Conclusions
High Temp GPC-IR Takes Snapshot IR Pictures of Polyolefin
Copolymers for Compositional Drifts and Short Chain Branching
Analysis with MW Distributions
Short Chain Branching Levels can be Analyzed either by Peak Height
Ratios or Peak Area Ratios for Ethylene Copolymers with Propylene,
Butene, Hexene and Octene.
GPC-IR can Analyze Short Chain Branching Levels of Ethylene
Copolymers from Multiple IR Ranges: 2800-3000, 1500-1300 and
1300-700 cm-1.
GPC-IR is a Powerful Tool to De-Formulate Polyolefin Mixtures.
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LC-IR Applications
DiscovIR-LC is a Powerful Tool for Polymer, Excipient & Materials Analysis
Polyolefin Copolymer Branching Analysis by High Temp GPC-IR
Excipient Characterization, Functionality & Degradation Analysis
Copolymer Compositional Drift Analysis across MW Distributions
Polymer Blend Ratio Analysis across MWD
Polymer Additive & Impurity Analysis
De-Formulation for Polymers, Excipients and Additives
Process Control & Optimization
Reactive Polymer Analysis for Coating, Adhesive, Sealant & Elastomer
Plastics, Rubbers, Films, Fibers, Foams, Composites & Biopolymers
Isomer Analysis for Chemicals, Forensics & Pharmaceuticals
General Analytical Capability: Trouble Shooting 21