The polyrotaxane gel: a topological gel by figure‐of‐eight cross‐links Y Okumura, K Ito Advanced materials 13 (7), 485-487, 2001 | 2027 | 2001 |
Self-assembled hexa-peri-hexabenzocoronene graphitic nanotube JP Hill, W Jin, A Kosaka, T Fukushima, H Ichihara, T Shimomura, K Ito, ... Science 304 (5676), 1481-1483, 2004 | 1165 | 2004 |
Extremely stretchable thermosensitive hydrogels by introducing slide-ring polyrotaxane cross-linkers and ionic groups into the polymer network A Bin Imran, K Esaki, H Gotoh, T Seki, K Ito, Y Sakai, Y Takeoka Nature communications 5 (1), 5124, 2014 | 521 | 2014 |
Tough hydrogels with rapid self-reinforcement C Liu, N Morimoto, L Jiang, S Kawahara, T Noritomi, H Yokoyama, ... Science 372 (6546), 1078-1081, 2021 | 462 | 2021 |
Novel cross-linking concept of polymer network: synthesis, structure, and properties of slide-ring gels with freely movable junctions K Ito Polymer journal 39 (6), 489-499, 2007 | 415 | 2007 |
Recent advances in the preparation of cyclodextrin-based polyrotaxanes and their applications to soft materials J Araki, K Ito Soft Matter 3 (12), 1456-1473, 2007 | 322 | 2007 |
Effective production of poly (3-alkylthiophene) nanofibers by means of whisker method using anisole solvent: Structural, optical, and electrical properties S Samitsu, T Shimomura, S Heike, T Hashizume, K Ito Macromolecules 41 (21), 8000-8010, 2008 | 288 | 2008 |
Electroactive supramolecular self-assembled fibers comprised of doped tetrathiafulvalene-based gelators T Kitamura, S Nakaso, N Mizoshita, Y Tochigi, T Shimomura, M Moriyama, ... Journal of the American Chemical Society 127 (42), 14769-14775, 2005 | 263 | 2005 |
Inclusion complex formation of cyclodextrin and polyaniline K Yoshida, T Shimomura, K Ito, R Hayakawa Langmuir 15 (4), 910-913, 1999 | 231 | 1999 |
Efficient Production of Polyrotaxanes from-Cyclodextrin and Poly (ethylene glycol) J Araki, C Zhao, K Ito Macromolecules 38, 7524-7527, 2005 | 208 | 2005 |
From topological gels to slide‐ring materials Y Noda, Y Hayashi, K Ito Journal of Applied Polymer Science 131 (15), 2014 | 189 | 2014 |
Slide-ring materials using topological supramolecular architecture K Ito Current Opinion in Solid State and Materials Science 14 (2), 28-34, 2010 | 181 | 2010 |
Highly Stretchable and Instantly Recoverable Slide-Ring Gels Consisting of Enzymatically Synthesized Polyrotaxane with Low Host Coverage KI Lan Jiang, Chang Liu, Koichi Mayumi, Kazuaki Kato, Hideaki Yokoyama Chemistry of Materials 30 (15), 5013-5019, 2018 | 164 | 2018 |
SANS studies on deformation mechanism of slide-ring gel T Karino, Y Okumura, C Zhao, T Kataoka, K Ito, M Shibayama Macromolecules 38 (14), 6161-6167, 2005 | 157 | 2005 |
Structure and dynamics of polyrotaxane and slide-ring materials K Mayumi, K Ito Polymer 51 (4), 959-967, 2010 | 141 | 2010 |
SANS studies on spatial inhomogeneities of slide-ring gels T Karino, Y Okumura, K Ito, M Shibayama Macromolecules 37 (16), 6177-6182, 2004 | 140 | 2004 |
Optically transparent, high-toughness elastomer using a polyrotaxane cross-linker as a molecular pulley YT Hiroaki Gotoh, Chang Liu, Abu Bin Imran, Mitsuo Hara, Takahiro Seki ... Science Advances 4 (10), eaat7629, 2018 | 139 | 2018 |
Novel entropic elasticity of polymeric materials: why is slide-ring gel so soft? K Ito Polymer journal 44 (1), 38-41, 2012 | 137 | 2012 |
Atomic force microscopy observation of insulated molecular wire formed by conducting polymer and molecular nanotube T Shimomura, T Akai, T Abe, K Ito The Journal of chemical physics 116 (5), 1753-1756, 2002 | 137 | 2002 |
Preparation of a “sliding graft copolymer”, an organic solvent-soluble polyrotaxane containing mobile side chains, and its application for a crosslinked elastomeric … J Araki, T Kataoka, K Ito Soft Matter 4 (2), 245-249, 2008 | 135 | 2008 |