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Hokkaido University Collection of Scholarly and Academic Papers >
Showing results 1 to 13 of 13
| Type | Author(s) | Title | Other Titles | Citation | Citation(alt) | Issue Date | | theses (doctoral - abstract and summary of review) | 木山, 竜二 | Development of Nano-scale Direct Observation Method for Hydrogel Network Structure and Study on Fracture Mechanism of Hydrogel [an abstract of dissertation and a summary of dissertation review] | ハイドロゲル網目直接観察法の開発及びハイドロゲル破壊メカニズム究明に関する研究 [論文内容及び審査の要旨] | - | - | 24-Mar-2022 |
| theses (doctoral) | 木山, 竜二 | Development of Nano-scale Direct Observation Method for Hydrogel Network Structure and Study on Fracture Mechanism of Hydrogel | ハイドロゲル網目直接観察法の開発及びハイドロゲル破壊メカニズム究明に関する研究 | - | - | 24-Mar-2022 |
| article (author version) | Kiyama, Ryuji; Yoshida, Masahiro; Nonoyama, Takayuki; Sedlačík, Tomáš; Jinnai, Hiroshi; Kurokawa, Takayuki; Nakajima, Tasuku; Gong, Jian Ping | Nanoscale TEM Imaging of Hydrogel Network Architecture | - | Advanced Materials | - | 2022 |
| article (author version) | Nishimura, Takuya; Guo, Honglei; Kiyama, Ryuji; Katsuyama, Yoshinori; Gong, Jian Ping; Kurokawa, Takayuki | In Situ Evaluation of the Polymer Concentration Distribution of Microphase-Separated Polyelectrolyte Hydrogels by the Microelectrode Technique | - | Macromolecules | - | 14-Dec-2021 |
| article | Nonoyama, Takayuki; Wang, Lei; Kiyama, Ryuji; Kashimura, Naohiro; Yasuda, Kazunori; Tanaka, Shinya; Kurokawa, Takayuki; Gong, Jian Ping | Fast in vivo fixation of double network hydrogel to bone by monetite surface hybridization | - | Journal of the Ceramic Society of Japan | - | Sep-2021 |
| article (author version) | Liu, Zezhou; Hui, Chung-Yuen; Jagota, Anand; Gong, Jian Ping; Kiyama, Ryuji | A surface flattening method for characterizing the surface stress, drained Poisson's ratio and diffusivity of poroelastic gels | - | Soft Matter | - | 21-Aug-2021 |
| article (author version) | Zheng, Yong; Kiyama, Ryuji; Matsuda, Takahiro; Cui, Kunpeng; Li, Xueyu; Cui, Wei; Guo, Yunzhou; Nakajima, Tasuku; Kurokawa, Takayuki; Gong, Jian Ping | Nanophase Separation in Immiscible Double Network Elastomers Induces Synergetic Strengthening, Toughening, and Fatigue Resistance | - | Chemistry of Materials | - | 11-May-2021 |
| article (author version) | Nonoyama, Takayuki; Wang, Lei; Tsuda, Masumi; Suzuki, Yuki; Kiyama, Ryuji; Yasuda, Kazunori; Tanaka, Shinya; Nagata, Kousuke; Fujita, Ryosuke; Sakamoto, Naoya; Kawasaki, Noriyuki; Yurimoto, Hisayoshi; Gong, Jian Ping | Isotope Microscopic Observation of Osteogenesis Process Forming Robust Bonding of Double Network Hydrogel to Bone | - | Advanced Healthcare Materials | - | 3-Feb-2021 |
| article (author version) | Hui, Chung-Yuen; Liu, Zezhou; Bain, Nicolas; Jagota, Anand; Dufresne, Eric R.; Style, Robert W.; Kiyama, Ryuji; Gong, Jian Ping | How surface stress transforms surface profiles and adhesion of rough elastic bodies | - | Proceedings of the royal society a-mathematical physical and engineering sciences | - | 25-Nov-2020 |
| article (author version) | Sedlačík, Tomáš; Nonoyama, Takayuki; Guo, Honglei; Kiyama, Ryuji; Nakajima, Tasuku; Takeda, Yoshihiro; Kurokawa, Takayuki; Gong, Jian Ping | Preparation of Tough Double- and Triple-Network Supermacroporous Hydrogels through Repeated Cryogelation | - | Chemistry of Materials | - | 13-Oct-2020 |
| article (author version) | Fukao, Kazuki; Tanaka, Kazuki; Kiyama, Ryuji; Nonoyama, Takayuki; Gong, Jian Ping | Hydrogels toughened by biominerals providing energy-dissipative sacrificial bonds | - | Journal of materials chemistry B | - | 7-Jul-2020 |
| article (author version) | Guo, Honglei; Uehara, Yuto; Matsuda, Takahiro; Kiyama, Ryuji; Li, Long; Ahmed, Jamil; Katsuyama, Yoshinori; Nonoyama, Takayuki; Kurokawa, Takayuki | Surface charge dominated protein absorption on hydrogels | - | Soft Matter | - | 21-Feb-2020 |
| article | Nonoyama, Takayuki; Wada, Susumu; Kiyama, Ryuji; Kitamura, Nobuto; Mredha, Md.Tariful Islam; Zhang, Xi; Kurokawa, Takayuki; Nakajima, Tasuku; Takagi, Yasuaki; Yasuda, Kazunori; Gong, Jian Ping | Double-Network Hydrogels Strongly Bondable to Bones by Spontaneous Osteogenesis Penetration | - | Advanced Materials | - | 17-Aug-2016 |
Showing results 1 to 13 of 13
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