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論文・記事Publication

2004

 1 M. Naritomi, T. Onishi, H. Murofushi, N. Nakashima, “Study of Optimized Bandwidth depending on Dopants in Perfluorinated Graded Index Polymer Optical Fibers”, Trans. Mater. Research Soc. Jpn., 29, 915-917(2004).
 2 H. Igarashi, H. M., Y. Murakami, S. Maruyama, N. Nakashima,“Purification and characterization of zeolite-supported single-walled carbon nanotubes catalytically synthesized from ethanol”, Chem. Phys. Lett., 392, 529-532 (2004).
 3 T. Nakanishi, H. Ohwaki, H. Tanaka,H. Murakami, T. Sagara, and N. Nakashima “Electrochemical and Chemical Reduction of Fullerenes C60 and C70 Embedded in Cast Films of Artificial Lipids in Aqueous Media”, J. Phys. Chem. B, 108, 7754-7764 (2004).
 4 N. Nakashima, “Fullerene Lipid Films”, in “Encyclopedia of Nanoscience and Nanotechnology, Vol. 3”, Ed. by Hari Singh Nalwa, American Scientific Publishers, 2004, pp. 545-565
 5 N. Nakashima, S. Okuzono, Y. Tomonari, and H. Murakami, “Solubilization and Functionalization of Carbon Nanotubes with Polycyclic Aromatic Compounds in Water”, Trans. Mater. Research Soc. Jpn., 29, 525-528 (2004).
 6 M. Tominaga, S. Hashimoto, N. Nakashima, “Phase Transition Effect of a Bilayer Membrane on the Electrode Reaction of Ferredoxin Embedded in an Artificial Lipid Membrane Film”, J. Electroanal. Chem., 561, 13-20 (2004).
 7 A-H. Bae, T. Hatano, N. Nakashima, H. Murakami, S. Shinkai, “Electrochemical fablication of single-walled carbon nanotubes-DNA complex by poly (ethylenedioxythiophene)and photocurrent generation by exitation of an intercalated chromophore”, Org. Biomol. Chem., 2, 1139-1144 (2004).
 8 T. Toyota, N. Nakashima, T. Sagara, “UV-visible transmission-absorption spectral study of Au nanoparticles on a modified ITO electrode at constant potentials and under potential modulation”, J. Electroanal. Chem., 565, 335-342 (2004).

2003

 1 T. Nakanishi, I. Yilmaz, N. Nakashima and K. M. Kadish, “Thermodynamic Study of Ion-Pairing Effects Between Reduced Double-Decker Lutetium (III) Phthalocyanines and a Cationic Matrix”, J. Phys. Chem., 107, 12789-12796 (2003).
 2 N. Nakashima, S. Okuzono, Y. Tomonari, and H. Murakami “Surface Modification and Solubilization of Single-walled Carbon Nanotubes in Water with π-Aromatic Compounds”, Fullerenes, 13, 277-284 (2003).
 3 T. Nakanishi, H. Murakami, and N. Nakashima, “CHEMICAL REDUCTION OF FULLERENES C60 AND C70 EMBEDDED IN CAST FILMS OF CATIONIC LIPIDS”, Fullerenes, 13, 13-19 (2003).
 4 H. Murakami, T. Nomura, N. Nakashima, “Noncovalent porphyrin-functionalized single-walled carbon nanotubes in solution and the formation of porphyrin-nanotube nanocomposites”, Chem. Phys. Lett., 378, 481-485 (2003).
 5 N. Nakashima, S. Okuzono, H. Murakami, T. Nakai, K. Yoshikawa, “DNA dissolves Single-walled Carbon Nanotubes in Water”, Chem. Lett., 32, 456 (2003).
 6 N. Nakashima, “Structure and electrochemistry of fullerene lipid-hybrid and composite materials”, A. Ottovo, H. T. Tien (Eds.), Membrane Science and Technology, Vol. 7: Planar Lipid Bilayers (BLMs) and their Applications, chap.29, 2003.

2002

 1 T. Nakanishi, M. Morita, H. Murakami, T. Sagara and N. Nakashima, “Structure and Electrochemistry of Self-Organized Fullerene Lipid Bilayer Films”, Chem. Eur. J., 8, 1641-1648 (2002).
 2 N. Nakashima, M. Sakai, H. Murakami, T. Sagara, T. Wakahara, and T. Akasaka T.Nakanishi, “Construction of a Metallofullerene La@C82/Artificial Lipid Film-Modified Electrode Device and Its Electron Transfer”, J. Phys. Chem. B, 106, 3523-3525 (2002).
 3 E. Mouri, T. Nakanishi, N. Nakashima, H. Matsuoka, “Nanostructure of Fullerene-Bearing Artificial Lipid Monolayer on Water Surface by in situ X-ray Reflectometry”, Langmuir, 18, 10042-10046 (2002).
 4 H. Murakami, R. Matsumoto, Y. Okusa,T. Sagara, M. Fujitsuka, O. Ito and N. Nakashima, “Design, Synthesis and Photophysical Properties of C60-Modified Proteins”, J. Mater. Chem., 12、2026-2033 (2002).
 5 N. Nakashima, Y. Tomonari, and H. Murakami, “Water-Soluble Single-Walled Carbon Nanotubes via Noncovalent Sidewall-Functionalization with a Pyrene-Carrying Ammonium Ion”, Chem, Lett., 638-639 (2002).
 6 T. Sagara, K. Nagata, H. Tsuruta, N. Nakashima, “Dynamic Dendrimer at Electrified Interface: Potential Dependent Adsorption-Desorption and Reorientation of a 4-Pyridyl-Modified PAMAM Dendrimer”, Chem. Comm., 2116-2117 (2002).
 7 M. Komatsu, T. Sagara, N. Nakashima, “Aqueous Electrochemistry of C60 Incorporated in an Artificial Lipid Thin Film on a p Type Semiconductive Diamond Electrode”, J. Electrochem. Soc., 149、E227-E232 (2002).
 8 T. Sagara, N. Kato, A. Toyota, N. Nakashima, “Anomalous Electroreflectance and Absorption Spectra of Viologen Radical Cation in Close Proximity of Gold Nanoparticles at Electrified Interfaces”, Langmuir, 18, 6995-7001 (2002).
 9 T. Sagara, S. Tanaka, K. Miuchi, N. Nakashima, “Characteristics of faradaic phase transition of an adsorption layer of heptyl viologen at a basal plane HOPG electrode”, J. Electroanal. Chem., 524-525, 68-76(2002).
 10 N. Nakashima, H. Kobae, H. Murakami, “Formation of Single-Walled Carbon Nanotube Thin Films on Electrodes Monitored by Electrochemical Quartz Crystal Microbalance”, ChemPhyChem. 3, 456-458 (2002).
 11 M. Tominaga, J. Yanagimoto, and N. Nakashima, “Direct Electrochemistry of Cytochrome c Embedded in Membrane Films of Anionic-Type Lipids Prepared via Ion-Exchange”, Chem. Lett., 2002, 334-335.
12 T. Sagara, N. Kato, N. Nakashima, “Electroreflectance Study of Gold Nanoparticles Immobilized on an Aminoalkanethiol Monolayer Coated on a Polycrystalline Gold Elctrode Surface”, J. Phys. Chem., 106, 1205-1212 (2002).

2001

 1 N. Nakashima, Nor Wahida, M. Mori, H. Murakami, T. Sagara, “Stable Electrochemistry of Higher Fullerene Films on Electrodes in Water”, Fullerenes, 11, 4-14 (2001)
 2 N. Nakashima, Nor Wahida, M. Mori, H. Murakami, and T. Sagara, First Electrochemical Reductions of C84 Films on Electrodes”, Chem . Lett., 30, 748-749 (2001).
 3 H. Ohwaki, N. Nakashima, “Electrochemistry of C60/Cationic Lipid Films on Electrodes in Aqueous Solution”, Trans. Mater. Res. Soc. Jpn, 26, 933-936 (2001).
 4 T. Sagara, H. Tsuruta, N. Nakashima: Does Thiol-Functionalized Viologen Memorize Anion Present When Forming the Monolayer?”, J. Electroanal. Chem., 500, 255-263 (2001).
 5 N. Nakashima, T. Ishii, M. Shirakusa, T. Nakanishi, H. Murakami, T. Sagara, “Bilayer-Based Superstructures of a Fullerene-Carrying Ammonium Amphiphile: Structure and Electrochemistry”, Chem. Eur. J., 7, 1766-1772 (2001).
 6 T. Sagara, H. Tsuruta, Y. Fukuoka, S. Tanaka, N. Nakashima, Viologen monolayers: Dynamics on electrode surfaces”, Surface Science & Catalysis, 132, 841 (2001).
 7
  • T. Sagara, S. Tanaka, Y. Fukuoka, N. Nakashima, “Study of the Voltammetric Spike Response of Heptylviologen at a HOPG Electrode Horizontally-Touched to Gas/Heptylviologen Aqueous Solution Interface”, Langmuir, 17, 1620-1629 (2001).

2000

 1 H. Murakami, H. Akiyoshi, T. Wakamatsu, T. Sagara, and N. Nakashima, “Electrochemical Saccharide Recognition by a Phenylboronic Acid -Terminated Redox Active Self-Assembled Monolayer on a Gold Electrode”, Chem. Lett., 29, 940-941(2000).
 2 N. Nakashima, T. Tokunaga, H. Owaki, H. Murakami, T. Sagara, “Catalytic Reduction of Organohakides at Hemin and Hemin-Imidazole Polymer Films on Pyrolytic Graphaite Electrodes”, Colloids & Surfaces, A, 169, 163-170 (2000).
 3 T. Nakanishi, H. Murakami, T. Sagara, and N. Nakashima, “Electrochemistry of Fullerene C60 Embedded in a Gel-like Membrane of Tetraoctylphosphonium Bromide on an Electrode in Aqueous Solution”, Chem. Lett., 29, 340-341(2000).
 4 T. Sagara, H. Murase, M. Komatsu, N. Nakashima, “Toward the Interpretation of Electroreflectance Spectral Profiles: Hemin Adsorbed on a HOPG Electrode Revisted”, Applied Spectrosc., 54, 316 (2000).
 5  H. Murakami, Y. Okusa, S. Kiyonaka, I. Hamachi, S. Shinkai, N. Nakashima, “The Synthesis of a Reconstituted C60-Protein”, Chem. Lett, 29, 46-47 (2000).
6  N. Nakashima, “Construction of β-Cyclodextrin-Based Pseudo-Rotaxanes and Rotaxanes with 2-D or 3-D Structure, Precision Polymers and Nano-Organized Systems”, T. Kunitake, S. Nakahama, S. Takahashi, and N. Toshima, Eds., Kodansha, Tokyo, 2000, 151-154.
7  N. Nakashima, Structure and Function of Self-Organized Fullerene Lipid Bilayers, “Recent Advances in the Chemistry and Physics of Fullerenes and Related Materials”, Vol.8, K. M. Kadish & R. F. Ruoff Eds., The Electrochemical Society, Inc., Pennington NJ, 2000, 131-139.
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