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Yoshinori Takashima
Researcher at Osaka University
Publications - 193
Citations - 11869
Yoshinori Takashima is an academic researcher from Osaka University. The author has contributed to research in topics: Supramolecular chemistry & Supramolecular polymers. The author has an hindex of 45, co-authored 171 publications receiving 10153 citations. Previous affiliations of Yoshinori Takashima include Hiroshima University & Nanjing University.
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Redox-responsive self-healing materials formed from host–guest polymers
TL;DR: The formation of supramolecular hydrogels and their redox-responsive and self-healing properties due to host–guest interactions are reported and cyclodextrin is employed as a host molecule because it is environmentally benign and has diverse applications.
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Cyclodextrin-based supramolecular polymers
TL;DR: This tutorial review overviews construction of some supramolecular architectures formed by cyclodextrins or their derivatives with guest molecules.
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Supramolecular polymeric materials via cyclodextrin-guest interactions.
TL;DR: This Account demonstrates some of the great advances in the development of supramolecular materials through host-guest interactions within the last 10 years, and uses the molecular recognition of CDs to achieve macroscopic self-assemblies, and this chemistry can direct these macroscopy objects into even larger aggregated structures.
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Macroscopic self-assembly through molecular recognition
TL;DR: It is demonstrated that well-defined molecular-recognition events can be used to direct the assembly of macroscopic objects into larger aggregated structures.
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Expansion-contraction of photoresponsive artificial muscle regulated by host-guest interactions
Yoshinori Takashima,Shogo Hatanaka,Miyuki Otsubo,Masaki Nakahata,Takahiro Kakuta,Akihito Hashidzume,Hiroyasu Yamaguchi,Akira Harada +7 more
TL;DR: A photoresponsive supramolecular actuator is designed by integrating host–guest interactions and photoswitching ability in a hydrogel by integratingHost–guerilla interactions and Photoswitching Ability in a Hydrogel.