Hisanori Shinohara mainly focuses on Fullerene, Carbon nanotube, Nanotechnology, Molecule and Analytical chemistry. Her study in Fullerene focuses on Metallofullerene in particular. Her Carbon nanotube research includes themes of Carbon, Transmission electron microscopy and Raman spectroscopy.
She has included themes like Optoelectronics, Doping and Zeolite in her Nanotechnology study. In her work, Dissociation is strongly intertwined with Photochemistry, which is a subfield of Molecule. Her Analytical chemistry research integrates issues from Characterization, Spectroscopy and Cluster.
Her primary areas of study are Carbon nanotube, Fullerene, Nanotechnology, Analytical chemistry and Crystallography. She works mostly in the field of Carbon nanotube, limiting it down to concerns involving Raman spectroscopy and, occasionally, Molecular physics. Her biological study spans a wide range of topics, including Scanning tunneling microscope, Molecule and Atomic physics.
Many of her studies involve connections with topics such as Optoelectronics and Nanotechnology. Her Analytical chemistry study incorporates themes from Ion and Carbon. Her research integrates issues of X-ray crystallography and Monolayer in her study of Crystallography.
Her main research concerns Nanotechnology, Carbon nanotube, Monolayer, Chemical engineering and Graphene. Her work deals with themes such as Fullerene and Raman spectroscopy, which intersect with Nanotechnology. Her biological study focuses on Endohedral fullerene.
The various areas that she examines in her Carbon nanotube study include Nanowire, Absorption, Polymer, Diamantane and Template synthesis. Her research on Monolayer also deals with topics like
Her primary scientific interests are in Nanotechnology, Carbon nanotube, Photoluminescence, Monolayer and Graphene. Hisanori Shinohara combines subjects such as Chemical engineering, Nanometre and Raman spectroscopy with her study of Nanotechnology. The concepts of her Carbon nanotube study are interwoven with issues in Thermal conductivity, Thermal, Polymer and Thin-film transistor.
In her study, Photochemistry, Metallofullerene, Molecule and Fullerene is inextricably linked to Band gap, which falls within the broad field of Photoluminescence. In her works, Hisanori Shinohara undertakes multidisciplinary study on Fullerene and Nanolithography. Her study in Hexagonal boron nitride is interdisciplinary in nature, drawing from both Chemical physics, Crystallography and Heterojunction.
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One-dimensional metallofullerene crystal generated inside single-walled carbon nanotubes.
K. Hirahara;K. Suenaga;S. Bandow;H. Kato.
Physical Review Letters (2000)
Confirmation by X-ray diffraction of the endohedral nature of the metallofullerene [email protected] 82
Masaki Takata;Buntaro Umeda;Eiji Nishibori;Makoto Sakata.
Paramagnetic water-soluble metallofullerenes having the highest relaxivity for MRI contrast agents.
Masahito Mikawa;Haruhito Kato;Masafumi Okumura;Michiko Narazaki.
Bioconjugate Chemistry (2001)
Bandgap modulation of carbon nanotubes by encapsulated metallofullerenes.
Jhinhwan Lee;H. Kim;S.-J. Kahng;G. Kim.
Encapsulation of a scandium trimer in C 82
Hisanori Shinohara;Hiroyasu Sato;Masato Ohkohchi;Yoshinori Ando.
C66 fullerene encaging a scandium dimer.
Chun-Ru Wang;Tsutomu Kai;Tetsuo Tomiyama;Takuya Yoshida.
Diameter and rigidity of multiwalled carbon nanotubes are critical factors in mesothelial injury and carcinogenesis
Hirotaka Nagai;Yasumasa Okazaki;Shan Hwu Chew;Nobuaki Misawa.
Proceedings of the National Academy of Sciences of the United States of America (2011)
Element-Selective Single Atom Imaging
K. Suenaga;K. Suenaga;M. Tencé;C. Mory;C. Colliex;C. Colliex.
A Scandium Carbide Endohedral Metallofullerene: (Sc2C2)@C84
Chun-Ru Wang;Tsutomu Kai;Testuo Tomiyama;Takuya Yoshida.
Angewandte Chemie (2001)
Lanthanoid endohedral metallofullerenols for MRI contrast agents.
Haruhito Kato;Yoko Kanazawa;Masafumi Okumura;Atsushi Taninaka.
Journal of the American Chemical Society (2003)
Profile was last updated on December 6th, 2021.
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