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Yuji Kamiyama

Showing results (1-10 of 16) with videos related to

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Journal of the American Chemical Society|July 2, 2026
Solvent-Driven Biphasic Architectures in Polymer Gels via Polymerization-Induced Solvent Phase SeparationYuji Kamiyama, Ryota Tamate
Soft Matter|January 17, 2025
<i>In situ</i> formation of ultrahigh molecular weight polymers in highly concentrated electrolytes and their physicochemical propertiesYuji Kamiyama, Takeshi Ueki, Ryota Tamate
Small (Weinheim an Der Bergstrasse, Germany)|October 7, 2025
Stiff and Fracture-Resistant Ion Gels Enabled by Synergetic Physical Entanglement and Hydrogen BondingRyota Tamate, Yuji Kamiyama, Ken Kojio
Advanced Materials (Deerfield Beach, Fla.)|April 19, 2023
Extremely Tough, Stretchable Gel Electrolytes with Strong Interpolymer Hydrogen Bonding Prepared Using Concentrated Electrolytes to Stabilize Lithium-Metal AnodesRyota Tamate, Yueying Peng, Yuji Kamiyama, et al.
Soft Matter|November 11, 2022
Controlling mechanical properties of ultrahigh molecular weight ion gels by chemical structure of ionic liquids and monomersYuji Kamiyama, Ryota Tamate, Kenta Fujii, et al.
Physical Chemistry Chemical Physics : PCCP|February 29, 2020
Lithium-ion coordination-induced conformational change of PEG chains in ionic-liquid-based electrolytesYuji Kamiyama, Masayuki Shibata, Ryo Kanzaki, et al.
Materials Horizons|April 20, 2026
Reprogrammable shape memory ion gels <i>via</i> physical entanglement of ultrahigh molecular weight polymersRyota Tamate, Koichiro Uto, Yuji Kamiyama, et al.
Macromolecular Rapid Communications|January 28, 2026
Toward Dynamic Liquid Cell Scaffold: Photoreversible Ion Gels Exhibiting Light-Induced Sol-Gel TransitionsAya Saruwatari, Yuji Kamiyama, Ryota Tamate, et al.
Soft Matter|July 17, 2024
Straightforward preparation of a tough and stretchable ion gelAya Saruwatari, Yuji Kamiyama, Akifumi Kawamura, et al.
Science Advances|October 19, 2022
Highly stretchable and self-healable polymer gels from physical entanglements of ultrahigh-molecular weight polymersYuji Kamiyama, Ryota Tamate, Takashi Hiroi, et al.
Pageof 2

Showing results (1-10 of 16) with videos related to

Sort By:
Pageof 2
Journal of the American Chemical Society|July 2, 2026
Solvent-Driven Biphasic Architectures in Polymer Gels via Polymerization-Induced Solvent Phase SeparationYuji Kamiyama, Ryota Tamate
Soft Matter|January 17, 2025
<i>In situ</i> formation of ultrahigh molecular weight polymers in highly concentrated electrolytes and their physicochemical propertiesYuji Kamiyama, Takeshi Ueki, Ryota Tamate
Small (Weinheim an Der Bergstrasse, Germany)|October 7, 2025
Stiff and Fracture-Resistant Ion Gels Enabled by Synergetic Physical Entanglement and Hydrogen BondingRyota Tamate, Yuji Kamiyama, Ken Kojio
Advanced Materials (Deerfield Beach, Fla.)|April 19, 2023
Extremely Tough, Stretchable Gel Electrolytes with Strong Interpolymer Hydrogen Bonding Prepared Using Concentrated Electrolytes to Stabilize Lithium-Metal AnodesRyota Tamate, Yueying Peng, Yuji Kamiyama, et al.
Soft Matter|November 11, 2022
Controlling mechanical properties of ultrahigh molecular weight ion gels by chemical structure of ionic liquids and monomersYuji Kamiyama, Ryota Tamate, Kenta Fujii, et al.
Physical Chemistry Chemical Physics : PCCP|February 29, 2020
Lithium-ion coordination-induced conformational change of PEG chains in ionic-liquid-based electrolytesYuji Kamiyama, Masayuki Shibata, Ryo Kanzaki, et al.
Materials Horizons|April 20, 2026
Reprogrammable shape memory ion gels <i>via</i> physical entanglement of ultrahigh molecular weight polymersRyota Tamate, Koichiro Uto, Yuji Kamiyama, et al.
Macromolecular Rapid Communications|January 28, 2026
Toward Dynamic Liquid Cell Scaffold: Photoreversible Ion Gels Exhibiting Light-Induced Sol-Gel TransitionsAya Saruwatari, Yuji Kamiyama, Ryota Tamate, et al.
Soft Matter|July 17, 2024
Straightforward preparation of a tough and stretchable ion gelAya Saruwatari, Yuji Kamiyama, Akifumi Kawamura, et al.
Science Advances|October 19, 2022
Highly stretchable and self-healable polymer gels from physical entanglements of ultrahigh-molecular weight polymersYuji Kamiyama, Ryota Tamate, Takashi Hiroi, et al.
Pageof 2