論文リスト(2017年以降)

2024
  1. Yanjie Zhang, Jian Tang, Quan Chen, Youngdon Kwon, Yumi Matsumiya and Hiroshi Watanabe, “Nonlinear Stress Relaxation of End-Associative Star Chain 1. Behavior Under Single-Step Strain”, Nihon Reoroji Gakkaishi (Journal of the Society of Rheology, Japan), 52, 123-141 (2024). DOI: 10.1678/rheology.52.123
  2. Yanjie Zhang, Jian Tang, Quan Chen, Youngdon Kwon, Yumi Matsumiya and Hiroshi Watanabe, “Nonlinear Stress Relaxation of End-Associative Star Chain 2. Behavior Under Double-Step Strain”, Nihon Reoroji Gakkaishi (Journal of the Society of Rheology, Japan), 52, 143-160 (2024). DOI: 10.1678/rheology.52.143
  3. Yumi Matsumiya and Hiroshi Watanabe, “Non-university of Constraint Release Relaxation in Entangled Linear Polymers of Various Chemical Structures”, Rubber Chemistry and Technology, in press. DOI: 10.5254/rct.24.00028
2023
  1. Yumi Matsumiya, Takeshi Sato, Quan Chen, and Hiroshi Watanabe, “Rouse Analysis of Nonlinear Rheology of Unentangled Polymer Melts under Fast Shear: Viscoelastic Response to Superposed Oscillatory Strain”, Macromolecules, 56, 2930 (2023). DOI: 10.1021/acs.macromol.3c00005
2022
  1. Takeshi Sato, Yumi Matsumiya, and Hiroshi Watanabe, “Experimental study of phase separation in dynamically asymmetric unentangled polymer blend”, Journal of Chemical Physics, 157, 224908 (2022). DOI: 10.1063/5.0124087
  2. Yumi Matsumiya, Takeshi Sato, Quan Chen, and Hiroshi Watanabe, “Rheo-dielectric Behavior of Unentangled Poly(butylene oxide): Preliminary Evaluation of Non-equilibrium Parameters at the Onset of Nonlinearity”, Nihon Reoroji Gakkaishi (Journal of the Society of Rheology, Japan), 50, 371-385 (2022). DOI: 10.1678/rheology.50.371
  3. Takeshi Sato and Ronald G. Larson, “Nonlinear Rheology of Entangled Wormlike Micellar Solutions Predicted by A Micelle-Slip-Spring Model”, Journal of Rheology, 66, 639 (2022). DOI: 10.1122/8.0000426
  4. Takeshi Sato, Yumi Matsumiya, and Hiroshi Watanabe, “Rheo-Dielectrics and Diffusion of Type-A Rouse Chain under Fast Shear Flow: Method of Evaluation of Non-equilibrium Parameters”, Nihon Reoroji Gakkaishi (Journal of Society Rheology, Japan), 50, 253 (2022). DOI: 10.1678/rheology.50.253
  5. Takeshi Sato, “Modeling Techniques for the Rheology of Wormlike Micellar Solutions”, Nihon Reoroji Gakkaishi (Journal of the Society of Rheology, Japan), 50, 9-13 (2022). DOI: 10.1678/rheology.50.9 日本レオロジー学会誌50号記念招待総説
2021
  1. T. Sato, Y. Kwon, Y. Matsumiya, and H. Watanabe*, “A Constitutive Equation for Rouse Model Modified for Variations of Spring Stiffness, Bead Friction, and Brownian Force Intensity Under Flow”, Phys. Fluids, 33, 063106 (2021).
  2. Y. Matsumiya, H. Watanabe*, N. Sukhonthamethirat, and V. Vao-Soongnern, “Viscoelastic and Dielectric Behavior of Polyisoprene Monofunctionally Head-Modified with Associative Metal-Carboxylate Group”, J. Soc. Rheol. Jpn., 49(3), 189-197 (2021). DOI: 10.1678/rheology.49.189
  3. R. Shimada*, O. Urakawa, T. Inoue, and H. Watanabe*, “Phase equilibrium and dielectric relaxation in mixture of 5CB with dilute dimethyl phthalate: effect of coupling between orientation and composition fluctuations on molecular dynamics in isotropic one-phase state”, Soft Matter, Advance Article (2021). DOI: 10.1039/D1SM00496D
  4. H. Watanabe, Y. Matsumiya, and T. Sato, “Revisiting Nonlinear Flow Behavior of Rouse Chain: Roles of FENE, Friction-Reduction, and Brownian Force Intensity Variation”, Macromolecules, 54, 3700-3715 (2021). DOI: 10.1021/acs.macromol.1c00013
  5. Y. Matsumiya and H. Watanabe*, “Non-Universal Features in Uniaxially Extensional Rheology of Linear Polymer Melts and Concentrated Solutions: A Review”, Prog. Polym. Sci., 112 (2021) 101325. DOI: 10.1016/j.progpolymsci.2020.101325
2020
  1. H. Watanabe*, Y. Matsumiya, T. Sato, “Nonlinear Rheology of FENE Dumbbell model with Friction Reduction: Analysis of Brownian Force Intensity through Comparison of Extensional and Shear Viscosities”, J. Soc. Rheol. Jpn., 48(5), 259-269 (2020). DOI: 10.1678/rheology.48.259
  2. R. Shimada, H. Watanabe*, “Thermodynamic Effect on Viscosity and Density of a Mixture of 4-Cyano-4′-pentylbiphenyl (5CB) with Dilute Dimethyl Phthalate (DMP)”, J. Soc. Rheol. Jpn., 48(4), 199-206 (2020). DOI: 10.1678/rheology.48.199
  3. H. Iwawaki, O. Urakawa, T. Inoue*, Y. Nakamura, Y. Matsumiya, and H. Watanabe, “Rheo-Optical and Dielectric Study on Dynamics of Bottlebrush-like Polymacromonomer Consisting of a Polyisoprene Main Chain and Polystyrene Side Chains”, Macromolecules, 53, 7096-7106. DOI: 10.1021/acs.macromol.0c01041
  4. Y. Matsumiya, H. Watanabe*, “ENTANGLEMENT-LOOSENING DYNAMICS RESOLVED THROUGH COMPARISON OF DIELECTRIC AND VISCOELASTIC DATA OF TYPE-A POLYMERS: A REVIEW”, Rubber Chemistry and Technology, 93(1), pp. 22–62 (2020) . DOI: 10.5254/rct.19.80388
  5. X. Zhao, W. Yu, Y. Matsumiya, H. Watanabe*, Y. Kwon, “Dielectric Relaxation of Type-A Rouse Chains Undergoing Reversible End-Adsorption and Desorption”, J. Soc. Rheol. Jpn., 48(1), 27-35 (2020). DOI: 10.1678/rheology.48.27
  6. Y. Matsumiya, H. Watanabe*, O. Urakawa, T. Inoue, Y. Kwon, “Effect of Head-to-Head Association/Dissociation on Viscoelastic and Dielectric Relaxation of Entangled Linear Polyisoprene: An Experimental Test”, Macromolecules, 53(3), 1070-1083 (2020). DOI: 10.1021/acs.macromol.9b02399
2019
  1. Y. Kwon, Y. Matsumiya, and H. Watanabe*, “Dielectric Relaxation of Type‐A Chains Undergoing Head-to-Tail Association/Dissociation: Difference from Head-to-Head Case and Correlation with Viscoelastic Relaxation”, Macromolecules, 2019, 52, 8484-8502. DOI: 10.1021/acs.macromol.9b01710
  2. S. L. Morelly, L. Palmese, H. Watanabe, and N. J. Alvarez*, “Effect of Finite Extensibility on Nonlinear Extensional Rheology of Polymer Melts”, Macromolecules, 52, 915-922. DOI: 10.1021/acs.macromol.8b02319
2018
  1. Y. Matsumiya, H. Watanabe*, Y. Masubuchi, Q. Huang and O. Hassager, “Nonlinear Elongational Rheology of Non-Entangled Polystyrene and Poly(p-tert-butylstyrene) Melts”, Macromolecules, 2018, 51, 9710–9729. DOI: 10.1021/acs.macromol.8b01954
  2. H. Watanabe*, Y. Matsumiya and Y. Kwon, “Viscoelastic and Dielectric Relaxation of Reptating Type-A Chains Affected by Reversible Head-to-Head Association and Dissociation”, Macromolecules, 2018, 51, 6476–6496. DOI: 10.1021/acs.macromol.8b00691
  3. S. Wu, X. Cao, Z. Zhang, Q. Chen*, Y. Matsumiya and H. Watanabe, “Molecular Design of Highly Stretchable Ionomers”, Macromolecules, 2018, 51, 4735–4746. DOI: 10.1021/acs.macromol.8b00617
  4. K. I. S. Mongcopa, M. Tyagi, J. P. Mailoa, G. Samsonidze, B. Kozinsky, S. A. Mullin, D. A. Gribble, H. Watanabe and N. P. Balsara*, “Relationship between Segmental Dynamics Measured by Quasi-Elastic Neutron Scattering and Conductivity in Polymer Electrolytes”, ACS Macro Lett., 7, 504-508 (2018). DOI: 10.1021/acsmacrolett.8b00159
2017
  1. H. Watanabe*, Y. Matsumiya, and Y. Kwon, “Dynamics of Rouse Chains undergoing Head-to-Head Association and Dissociation: Difference between Dielectric and Viscoelastic Relaxation”, J. Rheol., 61(6), 1151-1170 (2017). DOI: 10.1122/1.4997579
  2. O. M. Kwon, H. Watanabe, K. H. Ahn, and S. J. Lee, “Growths of mechanical elasticity and electrical conductance of graphene nanoplatelets/poly (lactic acid) composites under strong electric field: Correlation with time evolution of higher order structure of graphene nanoplatelets”, Rheol. Acta, 56(11), 871-885 (2017) DOI: 10.1007/s00397-017-1042-z.
  3. R. Shimada*, H. Sakai, J. Yamamoto, H. Watanabe, “Creation of large, periodic temperature gradient via plasmonic heating from mesoscopic planar lattice of metal domains”, International Journal of Thermal Sciences, 118, 247-258 (2017). DOI: 10.1016/j.ijthermalsci.2017.04.022
  4. H. Watanabe* and Y. Matsumiya, “Revisit the Elongational Viscosity of FENE Dumbbell Model”, J. Soc. Rheol. Jpn., 45(4), 185-190 (2017). DOI: 10.1678/rheology.45.185
  5. Y. Doi, A. Matsumoto, T. Inoue, T. Iwamoto, A. Takano, Y. Matsushita, Y. Takahashi, and H. Watanabe, “Re-examination of terminal relaxation behavior of high-molecular-weight ring polystyrene melts”, Rheol. Acta, 56(6), 567-581 (2017). DOI: 10.1007/s00397-017-1014-3
  6. O. M. Kwon, H. Watanabe, K. H. Ahn, and S. J. Lee, “Interplay between structure and property of graphene nanoplatelet networks formed by an electric field in a poly (lactic acid) matrix”, J. Rheol., 61(2), 291-303 (2017). DOI: 10.1122/1.4975335
  7. Y. Matsumiya, H. Watanabe, K. Abe, Y. Matsumura, F. Tani, Y. Kase, S. Kikkawa, Y. Suzuki, and N. Ishii, “Rheology of Nano-Cellulose Fiber Suspension”, J. Soc. Rheol. Jpn., 45(1), 3-11 (2017). DOI: 10.1678/rheology.45.3
2016年以前

2016年以前の論文に関しては、渡辺先生の個人ページをご覧ください。

書籍

2020
  1. 高分子学会 編「基礎高分子科学 第2版」東京化学同人

学会発表

受賞