Your search keyword '"Yamamoto, Takuya"' showing total 3 results

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

Author

Terada, Erika, Isono, Takuya, Satoh, Toshifumi, Yamamoto, Takuya, Kakuchi, Toyoji, and Sato, Shinichiro

Subjects

ALKYL group, MOLECULAR dynamics, THERMORESPONSIVE polymers, ETHERS, TEMPERATURE, HYDROGEN bonding, POLYMERS

Abstract

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)n glycidyl ether) (poly(Me(EO)nGE)), and poly(ethyl(oligooxyethylene)n glycidyl ether) (poly(Et(EO)nGE) (n = 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(N-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 ( T CRP ) was slightly lower than the cloud point temperature ( T CLP ) for the methyl-terminated poly(Me(EO)nGE) and slightly higher for the ethyl-terminated poly(Et(EO)nGE). It was concluded that the polymer-chain fluctuation affects the relationship between T CRP and T CLP . [ABSTRACT FROM AUTHOR]

Published

2023

2. Structural study of two polymer chains of poly(2-methoxyethyl glycidyl ether)-b-poly(2-ethoxyethyl glycidyl ether) thermoresponsive block copolymers using molecular dynamics simulations.

Author

Terada, Erika, Isono, Takuya, Satoh, Toshifumi, Yamamoto, Takuya, Kakuchi, Toyoji, and Sato, Shin-ichiro

Subjects

*MOLECULAR dynamics, *BLOCK copolymers, *THERMORESPONSIVE polymers, *POLYMERS, *POLYMER structure, *BLOCKCHAINS, *ETHERS, *LOW temperatures

Abstract

[Display omitted] • Thermoresponsive block polyglycidylethers are expected to be used as biomaterials. • MD simulations of two polymer chains have been employed to understand the structural transition of thermoresponsive polymers and interpolymer arrangements. Block copolymers are expected to be applied in a wide variety of fields due to the property of self-assembly. Our group has reported that poly(glycidyl ether) block copolymers exhibited complex temperature response in aqueous solution. In this study, we investigated the two chains of the block copolymer structure and configurations at different temperatures by using MD simulation. The results showed that at low temperatures, the polymer structure is linear and can form micelles, but above a certain temperature, the polymer structure changes to a U-shape and the micelle structure would be destroyed, which is responsible for the complex temperature response. [ABSTRACT FROM AUTHOR]

Published

2024

3. Corrigendum to "Effect of hydrogen–deuterium exchange in amide linkages on properties of electrospun polyamide nanofibers" [Polymer 229 (2022) 123994].

Author

Li, Dongyang, Takarada, Wataru, Ashizawa, Minoru, Yamamoto, Takuya, and Matsumoto, Hidetoshi

Subjects

*HYDROGEN-deuterium exchange, *NANOFIBERS, *POLYMERS

Published

2023