GONG Jian | Faculty of Advanced Life Science, Graduate School of Science, Hokkaido University
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概要
- Gong Jian Pingの詳細を見る
- 同名の論文著者
- Faculty of Advanced Life Science, Graduate School of Science, Hokkaido Universityの論文著者
関連著者
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GONG Jian
Faculty of Advanced Life Science, Graduate School of Science, Hokkaido University
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黒川 孝幸
北海道大学大学院理学研究院生命理学部門
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古川 英光
北海道大学大学院理学研究院生命理学部門
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Furukawa Hidemitsu
Dep. Of Biological Sciences Graduate School Of Sci. Hokkaido Univ.
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Furukawa Hidemitsu
Department Of Biological Sciences Graduate School Of Science Hokkaido University
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Furukawa Hidemitsu
Division Of Biological Sciences Hokkaido University
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古川 英光
東工大・生命理工
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Wu Zi
Division Of Biological Sciences Graduate School Of Science Hokkaido University
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KUROKAWA Takayuki
Faculty of Advanced Life Science, Graduate School of Science, Hokkaido University
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Gong Jian
Faculty Of Advanced Life Science Graduate School Of Science Hokkaido University
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Kurokawa Takayuki
Faculty Of Advanced Life Science Graduate School Of Science Hokkaido University
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Yasuda Kazunori
Department Of Sports Medicine And Joint Reconstruction Surgery Hokkaido University Graduate School O
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WU Zii
Division of Biological Sciences, Graduate School of Science, Hokkaido University
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Wu Zii
Division Of Biological Sciences Graduate School Of Science Hokkaido University
著作論文
- Spontaneous Redifferentiation of Dedifferentiated Human Articular Chondrocytes on Hydrogel Surfaces
- Study on the Sliding Friction of Endothelial Cells Cultured on Hydrogel and the Role of Glycocalyx on Friction Reduction
- Surfactant-Induced Friction Reduction for Hydrogels in the Boundary Lubrication Regime
- Robust bonding and one-step facile synthesis of tough hydrogels with desirable shape by virtue of the double network structure
- Ultrathin tough double network hydrogels showing adjustable muscle-like isometric force generation triggered by solvent
- Gene expression, glycocalyx assay, and surface properties of human endothelial cells cultured on hydrogel matrix with sulfonic moiety : Effect of elasticity of hydrogel
- Adhesion, Spreading, and Proliferation of Endothelial Cells on Charged Hydrogels
- In vitro differentiation of chondrogenic ATDC5 cells is enhanced by culturing on synthetic hydrogels with various charge densities
- Novel Developed Systems and Techniques Based on Double-Network Principle
- Hydrogels with a macroscopic-scale liquid crystal structure by self-assembly of a semi-rigid polyion complex