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Reversible networks in supramolecular polymers
D.J.M. Havermans - van Beek
Supramolecular Polymer Chemistry
Research output
:
Thesis
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Phd Thesis 1 (Research TU/e / Graduation TU/e)
1115
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Dive into the research topics of 'Reversible networks in supramolecular polymers'. Together they form a unique fingerprint.
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Chemistry
Supramolecular Polymer
100%
Copolymer
100%
Relaxation
85%
Hydrogen Bonding
71%
Association Constant
57%
Urethane
42%
Rheology
28%
Molecular Weight (Polymers)
28%
Single Monomer Polymer
28%
Mass Average Molar Mass
28%
Random Copolymer
28%
Micellar Electrokinetic Capillary Chromatography
28%
Naphthyridine
28%
Dimerization
28%
Hydrogen
28%
Micelle
28%
Mechanical Strength
14%
Reaction Activation Energy
14%
Photon Correlation Spectroscopy
14%
Melting Point
14%
Steric Hindrance
14%
Copolymerization
14%
Emission Wavelength
14%
Complexation
14%
Polymerization
14%
Titration
14%
Diol
14%
Elastomer
14%
Binding Site
14%
Thermoplastics
14%
Supramolecular Structure
14%
Storage Modulus
14%
Tautomer
14%
Differential Scanning Calorimetry
14%
Phase Separation
14%
Thermoanalysis
14%
Differential Thermal Analysis
14%
Material Science
Copolymer
100%
Hydrogen Bonding
55%
Mechanical Strength
33%
Polyester
33%
Materials Property
33%
Micelle
22%
Dimerization
22%
Polymer Architecture
22%
Polymer Solution
22%
Micellar Electrokinetic Chromatography
22%
Polymerization
11%
Volume Fraction
11%
Copolymerization
11%
Elastic Moduli
11%
Complexation
11%
Differential Scanning Calorimetry
11%
Thermoplastic Elastomer
11%
Thermal Analysis
11%
Activation Energy
11%
Young's Modulus
11%
Chemical Engineering
Copolymer
100%
Polycaprolactone
66%
Dimer
55%
Dimerization
22%
Micellar Electrokinetic Chromatography
22%
Differential Scanning Calorimetry
11%
Phase Separation
11%
Thermoplastic Elastomer
11%
Polymerization
11%
Copolymerization
11%