K
Kenji Kaneko
Researcher at Kyushu University
Publications - 422
Citations - 10313
Kenji Kaneko is an academic researcher from Kyushu University. The author has contributed to research in topics: Wells turbine & Transmission electron microscopy. The author has an hindex of 49, co-authored 415 publications receiving 9568 citations. Previous affiliations of Kenji Kaneko include Kyoto Prefectural University & Nagoya University.
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Modification of gold nanorods using phosphatidylcholine to reduce cytotoxicity
TL;DR: The extraction using a chloroform phase containing PC was found to be a convenient way of replacing the CTAB with alternative capping agents such as PC, and the PC-passivated NRs showed low cytotoxicity in comparison with twice-centrifuged NRs.
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Nanoparticles of adaptive supramolecular networks self-assembled from nucleotides and lanthanide ions.
Ryuhei Nishiyabu,Nozomi Hashimoto,Ten Cho,Kazuto Watanabe,T. Yasunaga,Ayataka Endo,Kenji Kaneko,Takuro Niidome,Masaharu Murata,Chihaya Adachi,Yoshiki Katayama,Makoto Hashizume,Nobuo Kimizuka +12 more
TL;DR: The adaptive nature of present supramolecular nanoparticles provides a versatile platform that can be utilized in a variety of applications ranging from material to biomedical sciences, and biocompatibility and liver-directing characteristics in in vivo tissue localization experiments are demonstrated.
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Preparation and characterization of polycrystalline anatase and rutile TiO2 thin films by rf magnetron sputtering
TL;DR: In this article, the structure of titanium dioxide films with the anatase and rutile single phase was studied by X-ray diffraction and transmission electron microscopy (TEM), and the optical properties were evaluated with spectroscopic ellipsometry (SE).
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Supramolecular Hydrogel Exhibiting Four Basic Logic Gate Functions To Fine-Tune Substance Release
TL;DR: It is demonstrated herein that one of the gel-based supramolecular logic gates is capable of holding and releasing bioactive substances in response to logic triggers and could temporarily modulate the release rate of the bioactive substance.