Soft-matter nanotubes: a platform for diverse functions and applications T Shimizu, W Ding, N Kameta Chemical reviews 120 (4), 2347-2407, 2020 | 173 | 2020 |
Supramolecular organic nanotubes: how to utilize the inner nanospace and the outer space N Kameta, H Minamikawa, M Masuda Soft Matter 7 (10), 4539-4561, 2011 | 150 | 2011 |
Functionalizable organic nanochannels based on lipid nanotubes: encapsulation and nanofluidic behavior of biomacromolecules N Kameta, M Masuda, H Minamikawa, Y Mishima, I Yamashita, T Shimizu Chemistry of materials 19 (14), 3553-3560, 2007 | 127 | 2007 |
Inside Front Cover: Selective Construction of Supramolecular Nanotube Hosts with Cationic Inner Surfaces (Adv. Mater. 22/2005) N Kameta, M Masuda, H Minamikawa, NV Goutev, JA Rim, JH Jung, ... Advanced Materials 17 (22), 2005 | 96 | 2005 |
Self-assembly and thermal phase transition behavior of unsymmetrical bolaamphiphiles having glucose-and amino-hydrophilic headgroups N Kameta, M Masuda, H Minamikawa, T Shimizu Langmuir 23 (8), 4634-4641, 2007 | 93 | 2007 |
Self-organized nanotube materials and their application in bioengineering T Shimizu, H Minamikawa, M Kogiso, M Aoyagi, N Kameta, W Ding, ... Polymer journal 46 (12), 831-858, 2014 | 92 | 2014 |
Soft nanotube hydrogels functioning as artificial chaperones N Kameta, M Masuda, T Shimizu ACS nano 6 (6), 5249-5258, 2012 | 81 | 2012 |
Controllable biomolecule release from self-assembled organic nanotubes with asymmetric surfaces: pH and temperature dependence N Kameta, H Minamikawa, M Masuda, G Mizuno, T Shimizu Soft Matter 4 (8), 1681-1687, 2008 | 78 | 2008 |
Supramolecular self-assembly into biofunctional soft nanotubes: from bilayers to monolayers T Shimizu, N Kameta, W Ding, M Masuda Langmuir 32 (47), 12242-12264, 2016 | 73 | 2016 |
Soft nanotubes acting as a light-harvesting antenna system N Kameta, K Ishikawa, M Masuda, M Asakawa, T Shimizu Chemistry of Materials 24 (1), 209-214, 2012 | 71 | 2012 |
Supramolecular nanotube hydrogels: remarkable resistance effect of confined proteins to denaturants N Kameta, K Yoshida, M Masuda, T Shimizu Chemistry of Materials 21 (24), 5892-5898, 2009 | 71 | 2009 |
Confinement effect of organic nanotubes toward green fluorescent protein (GFP) depending on the inner diameter size N Kameta, H Minamikawa, Y Someya, H Yui, M Masuda, T Shimizu Chemistry–A European Journal 16 (14), 4217-4223, 2010 | 67 | 2010 |
Supramolecular Nanotube endo Sensing for a Guest Protein N Kameta, M Masuda, G Mizuno, N Morii, T Shimizu Small 4 (5), 561-565, 2008 | 57 | 2008 |
Qualitative/chiral sensing of amino acids by naked-eye fluorescence change based on morphological transformation and hierarchizing in supramolecular assemblies of pyrene … N Kameta, M Masuda, T Shimizu Chemical communications 51 (55), 11104-11107, 2015 | 51 | 2015 |
Photoresponsive soft nanotubes for controlled guest release N Kameta, A Tanaka, H Akiyama, H Minamikawa, M Masuda, T Shimizu Chemistry–A European Journal 19 (17), 5251-5255, 2011 | 47 | 2011 |
Cisplatin-encapsulated organic nanotubes by endo-complexation in the hollow cylinder W Ding, M Wada, H Minamikawa, N Kameta, M Masuda, T Shimizu Chemical communications 48 (69), 8625-8627, 2012 | 39 | 2012 |
Molecular monolayer nanotubes having 7–9 nm inner diameters covered with different inner and outer surfaces N Kameta, G Mizuno, M Masuda, H Minamikawa, M Kogiso, T Shimizu Chemistry letters 36 (7), 896-897, 2007 | 39 | 2007 |
Hybrid organic nanotubes with dual functionalities localized on cylindrical nanochannels control the release of doxorubicin W Ding, N Kameta, H Minamikawa, M Wada, T Shimizu, M Masuda Advanced Healthcare Materials 1 (6), 699-706, 2012 | 37 | 2012 |
A novel synthesis of chiral rotaxanes via covalent bond formation N Kameta, K Hiratani, Y Nagawa Chemical communications, 466-467, 2004 | 37 | 2004 |
Photoinduced morphological transformations of soft nanotubes N Kameta, M Masuda, T Shimizu Chemistry–A European Journal 21 (24), 8832-8839, 2015 | 36 | 2015 |