Investigations on the thermoresponsive behavior of copoly(2-oxazoline)s in water

Investigations on the thermoresponsive behavior of copoly(2-oxazoline)s in water

Polymers with a lower critical point solution temperature (LCST) are widely investigated responsive materials and are already in use for smart materials applications, e.g., for medicinal purposes. Hydrogels prepared from these polymers usually exhibit a shrinking behavior over a broad temperature ra...

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Published in:Polymer (Guilford) Vol. 175; pp. 294 - 301
Main Authors: Hijazi, Montasser, Schmidt, Martin, Xia, Hekai, Storkmann, Jorena, Plothe, Ramona, Santos, Denise Dos, Bednarzick, Ulf, Krumm, Christian, Tiller, Joerg C.
Format: Journal Article
Language:English
Published: Kidlington Elsevier Ltd 26-06-2019
Elsevier BV
Subjects:
Copoly(2-oxazoline)
Copolymerization
Copolymers
Critical point
Hydrogels
Hydrophobicity
Investigations
LCST
Phase diagram
Phase diagrams
Phase transitions
Polymers
Smart materials
Temperature dependence
Temperature effects
Phase diagram
Copoly(2-oxazoline)
LCST
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Abstract Polymers with a lower critical point solution temperature (LCST) are widely investigated responsive materials and are already in use for smart materials applications, e.g., for medicinal purposes. Hydrogels prepared from these polymers usually exhibit a shrinking behavior over a broad temperature range, rather than an expected sharp phase transition. One reason for this is their cloud point temperature (Tcp) dependence on the concentration in water. Here, we investigate this behavior on the example of copolymers prepared by copolymerization of 2-ethyl-2-oxazoline (EtOx) with the respective heptyl (HepOx), butyl (BuOx), and isopropyl (iPrOx) derivatives, respectively. The resulting copolymers show greatly different dependencies of their TCP on concentration. While P(EtOx-stat-HepOx)s show a strong linear increase of Tcp on polymer concentration, the Tcp of P(EtOx-stat-BuOx)s is only slightly raising at higher concentration. P(EtOx-stat-iPrOx)s have two plateau regions in their water/polymer phase diagram. In general, copolymers with less strong differences in their hydrophobicity might be best suited for discretely thermo-switchable hydrogels, because they show the lowest dependence of Tcp on polymer concentration. [Display omitted] •The phase diagrams of LCST Copoly(2-oxazoline)s are investigated.•P(EtOx-stat-HepOx) changes its LCST but not its phase diagram with varying composition.•Tcp of P(EtOx-stat-BuOx) is less dependent on concentration with higher BuOx content.•P(EtOx-stat-iPrOx)s have two non-zero points in the phase diagram.
AbstractList Polymers with a lower critical point solution temperature (LCST) are widely investigated responsive materials and are already in use for smart materials applications, e.g., for medicinal purposes. Hydrogels prepared from these polymers usually exhibit a shrinking behavior over a broad temperature range, rather than an expected sharp phase transition. One reason for this is their cloud point temperature (Tcp) dependence on the concentration in water. Here, we investigate this behavior on the example of copolymers prepared by copolymerization of 2-ethyl-2-oxazoline (EtOx) with the respective heptyl (HepOx), butyl (BuOx), and isopropyl (iPrOx) derivatives, respectively. The resulting copolymers show greatly different dependencies of their TCP on concentration. While P(EtOx-stat-HepOx)s show a strong linear increase of Tcp on polymer concentration, the Tcp of P(EtOx-stat-BuOx)s is only slightly raising at higher concentration. P(EtOx-stat-iPrOx)s have two plateau regions in their water/polymer phase diagram. In general, copolymers with less strong differences in their hydrophobicity might be best suited for discretely thermo-switchable hydrogels, because they show the lowest dependence of Tcp on polymer concentration. [Display omitted] •The phase diagrams of LCST Copoly(2-oxazoline)s are investigated.•P(EtOx-stat-HepOx) changes its LCST but not its phase diagram with varying composition.•Tcp of P(EtOx-stat-BuOx) is less dependent on concentration with higher BuOx content.•P(EtOx-stat-iPrOx)s have two non-zero points in the phase diagram.
Polymers with a lower critical point solution temperature (LCST) are widely investigated responsive materials and are already in use for smart materials applications, e.g., for medicinal purposes. Hydrogels prepared from these polymers usually exhibit a shrinking behavior over a broad temperature range, rather than an expected sharp phase transition. One reason for this is their cloud point temperature (Tcp) dependence on the concentration in water. Here, we investigate this behavior on the example of copolymers prepared by copolymerization of 2-ethyl-2-oxazoline (EtOx) with the respective heptyl (HepOx), butyl (BuOx), and isopropyl (iPrOx) derivatives, respectively. The resulting copolymers show greatly different dependencies of their TCP on concentration. While P(EtOx-stat-HepOx)s show a strong linear increase of Tcp on polymer concentration, the Tcp of P(EtOx-stat-BuOx)s is only slightly raising at higher concentration. P(EtOx-stat-iPrOx)s have two plateau regions in their water/polymer phase diagram. In general, copolymers with less strong differences in their hydrophobicity might be best suited for discretely thermo-switchable hydrogels, because they show the lowest dependence of Tcp on polymer concentration.
Author Schmidt, Martin
Storkmann, Jorena
Plothe, Ramona
Bednarzick, Ulf
Tiller, Joerg C.
Hijazi, Montasser
Xia, Hekai
Santos, Denise Dos
Krumm, Christian
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  fullname: Tiller, Joerg C.
  email: joerg.tiller@tu-dortmund.de
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SSID ssj0002524
Score 2.4497395
Snippet Polymers with a lower critical point solution temperature (LCST) are widely investigated responsive materials and are already in use for smart materials...
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elsevier
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StartPage 294
SubjectTerms Copoly(2-oxazoline)
Copolymerization
Copolymers
Critical point
Hydrogels
Hydrophobicity
Investigations
LCST
Phase diagram
Phase diagrams
Phase transitions
Polymers
Smart materials
Temperature dependence
Temperature effects
Title Investigations on the thermoresponsive behavior of copoly(2-oxazoline)s in water
URI https://dx.doi.org/10.1016/j.polymer.2019.05.040
https://www.proquest.com/docview/2251699799
Volume 175
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