All-Atom Molecular Dynamics Simulations of the Temperature Response of Poly(glycidyl ether)s with Oligooxyethylene Side Chains Terminated with Alkyl Groups

Recently, experimental investigations of a class of temperature-responsive polymers tethered to oligooxyethylene side chains terminated with alkyl groups have been conducted. In this study, aqueous solutions of poly(glycidyl ether)s (PGE) with varying numbers of oxyethylene units, poly(methyl(oligoo...

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Published in:Nanomaterials (Basel, Switzerland) Switzerland), 2023-05, Vol.13 (10), p.1628
Main Authors: Terada, Erika, Isono, Takuya, Satoh, Toshifumi, Yamamoto, Takuya, Kakuchi, Toyoji, Sato, Shinichiro
Format: Article
Language:English
Subjects:
Aqueous solutions
Atoms & subatomic particles
Boundary conditions
Bulk density
Chains (polymeric)
Energy
Hydrogen bonding
Hydrogen bonds
Hydrophobicity
Molecular dynamics
molecular dynamics simulation
Molecular weight
Phase transitions
poly(glycidyl ether)
Poly(N-isopropylacrylamide)
Polyisopropyl acrylamide
Polymers
Recombination
Simulation
Solvation
Solvents
Temperature
temperature-responsive polymers
Transition temperature
Transition temperatures
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Summary:Recently, experimental investigations of a class of temperature-responsive polymers tethered to oligooxyethylene side chains terminated with alkyl groups have been conducted. In this study, aqueous solutions of poly(glycidyl ether)s (PGE) with varying numbers of oxyethylene units, poly(methyl(oligooxyethylene) glycidyl ether) (poly(Me(EO) GE)), and poly(ethyl(oligooxyethylene) glycidyl ether) (poly(Et(EO) GE) ( = 0, 1, and 2) were investigated by all-atom molecular dynamics simulations, focusing on the thermal responses of their chain extensions, the recombination of intrapolymer and polymer-water hydrogen bonds, and water-solvation shells around the alkyl groups. No clear relationship was established between the phase-transition temperature and the polymer-chain extensions unlike the case for the coil-globule transition of poly( -isopropylacrylamide). However, the temperature response of the first water-solvation shell around the alkyl group exhibited a notable correlation with the phase-transition temperature. In addition, the temperature at which the hydrophobic hydration shell strength around the terminal alkyl group equals the bulk water density (TCRP) was slightly lower than the cloud point temperature (TCLP) for the methyl-terminated poly(Me(EO) GE) and slightly higher for the ethyl-terminated poly(Et(EO) GE). It was concluded that the polymer-chain fluctuation affects the relationship between TCRP and TCLP.
ISSN:2079-4991
2079-4991
DOI:10.3390/nano13101628