M
Morinobu Endo
Researcher at Shinshu University
Publications - 805
Citations - 41803
Morinobu Endo is an academic researcher from Shinshu University. The author has contributed to research in topics: Carbon nanotube & Raman spectroscopy. The author has an hindex of 94, co-authored 787 publications receiving 38033 citations. Previous affiliations of Morinobu Endo include Mitsubishi Heavy Industries & Ministry of Education, Culture, Sports, Science and Technology.
Papers
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Journal ArticleDOI
General equation for the determination of the crystallite size La of nanographite by Raman spectroscopy
L. G. Cançado,Kazuyuki Takai,Toshiaki Enoki,Morinobu Endo,Yoong Ahm Kim,H. Mizusaki,Ado Jorio,L. N. Coelho,Rogério Magalhães-Paniago,Marcos A. Pimenta +9 more
TL;DR: In this paper, a systematic study of the ratio between the integrated intensities of the disorder-induced D and G Raman bands (ID∕IG) in nanographite samples with different crystallite sizes (La) and using different excitation laser energies is presented.
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Filamentous growth of carbon through benzene decomposition
TL;DR: Carbon fibres have been prepared by pyrolysing a mixture of benzene and hydrogen at about 1100°C and have been studied by high resolution electron microscopy.
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Origin of dispersive effects of the Raman D band in carbon materials
TL;DR: In this article, the origin and dispersion of the anomalous disorder-induced Raman band (D$ band) observed in all hybridized disordered carbon materials near the K point of the Brillouin zone was investigated as a function of incident laser energy.
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Recent development of carbon materials for Li ion batteries
TL;DR: In this article, the correlation between the microstructural parameters and electrochemical properties of conventional and novel types of carbon materials for Li ion batteries, namely, graphitizable carbons such as milled mesophase pitch-based carbon fibers, polyparaphenylenebased carbon heat-treated at low temperatures and boron-doped graphitized materials, was described.
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A Mechanism of Lithium Storage in Disordered Carbons
TL;DR: High-resolution electron microscopy and lithium-7 nuclear magnetic resonance measurements suggest the existence of Li2 covalent molecules in the carbon material, which promises extraordinarily high energy density for secondary batteries.