203rd Meeting - Paris, France
April 27-May 2, 2003
PROGRAM INFORMATION
R11 - Fullerenes Poster Session
Fullerenes, Nanotubes and Carbon Nanostructures
Tuesday, April 29, 2003
Hall Maillot, Level 2, Le Palais des Congres
Technical Exhibit and Tuesday Evening Poster Session
Co-Chairs: F. D'Souza and P.V. Kamat
| Time | Abs# | Title |
|---|
| o | 1568 |
Electrochemical and Chemical Reduction Properties of Fullerene C60 and C70 Embedded in Cast Films of Cationic Lipid - T. Nakanishi (University of Oxford), H. Murakami, and N. Nakashima (Nagasaki University) |
| o | 1569 |
Fullerene-Dibenzo[18]Crown-6 Conjugates: Synthesis and Cation-Complexation Dependent Redox Behavior - P.M. Smith, A.L. McCarty, M.E. Zandler, N.Y. Nguyen, B.S. Sherigara, and F. D'Souza (Wichita State University) |
| o | 1570 |
Supramolecular Porphyrin-Fullerene Complexes as Potential Photoactive Materials - A.L. Litvinov, D.V. Konarev (Russian Academy of Sciences), A.Y. Kovalevsky, P. Coppens (State University of New York at Buffalo), and R.N. Lyubovskaya (Russian Academy of Sciences) |
| o | 1571 |
Electrochemical and Photophysical Properties of Novel Ferrocene-Based Fulleropyrrolidines and Fulleropyrrolidinium Salts with Different Aromatic Bridge - K.Y. Kay, E.S. Kang, S.H. Park, Y.J. Yu (Ajou University), T.K. Ahn, S.K. Kim (Seoul National University), D.H. Kim (Yonsei University), J.E. Yu, and C.S. Choi (Daejeon University) |
| o | 1572 |
Photoinduced Electron Transfer Reaction in 9-cis-Retinyl-C60 Dyad - M. Sasaki, M. Fujitsuka, and O. Ito (Tohoku University) |
| o | 1573 |
Improvement of Quantum Yields for Photoinduced Energy/Electron Transfer by Isolation of Self-Aggregative Zinc Porphyrin-Pendant Polymer using Cyclodextrin-Inclusion in Solution - T. Konishi, A. Ikeda, Y. Tsuchiya (Nara Institute of Science and Technology), T. Hatano, S. Shinkai (Kyushu University), M. Fujitsuka, O. Ito (Tohoku University), and J.-I. Kikuchi (Nara Institute of Science and Technology) |
| o | 1574 |
Liquid-Crystalline Fulleropyrrolidines - S. Campidelli (Universite de Neuchatel), J. Barbera (Unibersidad de Zaragoza), and R. Deschenaux (Universite de Neuchatel) |
| o | 1575 |
Isolation and CharacteriZation of the Oxahomofluorofullerenol C60F17O.OH - A. Darwish, A. Abdul-Sada, A. Avent (University of Sussex), J. Street (Southampton University), and R. Taylor (University of Sussex) |
| o | 1576 |
Synthesis and Properties of New Lyquid-Crystalline Fulleropyrrolidines - E. Vazquez, D. Milic, M. Prato (Universita di Trieste), S. Campidelli, R. Deschenaux (Universite de Neuchatel), D.M. Guldi (University of Notre Dame), and F. Paolucci (Universita degli Studi di Bologna) |
| o | 1577 |
Design, Synthesis, and Photophysical Properties of Reconstituted Myoglobins Modified with C_60 - H. Murakami (Kyushu University), Y. Okusa, R. Matsumoto, T. Sagara (Nagasaki University), M. Fujitsuka, O. Ito (Tohoku University), and N. Nakashima (Nagasaki University) |
| o | 1578 |
Trifluoromethylated [60]Fullerenes. Synthesis, Spectroscopic Characterization and Properties - A. Goryunkov, V. Markov, A. Streletskii, L. Sidorov, O. Boltalina (Moscow State University), D. Dick, and S. Strauss (Colorado State University) |
| o | 1579 |
Regioselectively Oxygenated C_60On (n=2,3) Isomers - Y. Tajima, M. Kaneko, and K. Takeuchi (The Institute of Physical and Chemical Research) |
| o | 1580 |
Complexation of Fullerene Adducts of Pyridine or Imidazole by Water Soluble Zinc Porphyrins in the Langmuir and Langmuir-Blodgett Films - R. Marczak, K. Noworyta, W. Kutner (Polish Academy of Sciences), G. Suresh, and F. D'Souza (Wichita State University) |
| o | 1581 |
Fullerene Advanced Materials for Optoelectronic UtilizationS (FAMOUS) - J.-F. Nierengarten, D. Guillon (IPCMS-GMO-CNRS), R. Deschenaux (Universite de Neuchâtel), F. Langa (Ciencias del Medio Ambiante), G. Hadziioannou (ECPM-ULP), A. Hirsch (University of Erlangen), E. Gorecka (University of Warsaw), N. Armaroli (FRAE-CNR), and P. Fowler (University of Exeter) |
| o | 1582 |
Electrochemical and Chemical Reduction Properties of Thin Films Containing Double-Decker Lutetium(III) Phthalocyanines in Aqueous Media - T. Nakanishi (University of Oxford), I. Yilmaz (Technical University of Istanbul), and K. Kadish (University of Houston) |
| o | 1583 |
Towards Multiporphyrinic alpha-Helices with a Polypeptidic Backbone as System Endowed with Light Harvesting Capabilities. - V. Troiani and N. Solladie (Universite Louis Pasteur) |
| o | 1584 |
The First Phthalocyanine with Two Axial Fullerene Substituents - K.Y. Kay, E.S. Kang, S.H. Park, Y.J. Yu (Ajou University), J.E. Yu, and C.S. Choi (Daejeon University) |
| o | 1585 |
A Facile One-pot Synthesis of ƒÀ- and meso- Substituted Expanded Porphyrins - S. Shimizu and A. Osuka (Kyoto University) |
| o | 1586 |
Design and Synthesis of Fullerene-based Dyads for Solid-Phase Photoinduced Charge Transfer - A. Efimov, N. Tkachenko, and H. Lemmetyinen (Tampere University of Technology) |
| o | 1587 |
Spectral Sensitization of ZnO by Phthalocyanine and/or Porphyrin Molecules Attached by Electrochemical Self- Assembly - K. Nonomura (University of Oldenburg), E. Ebel (University of Bremen), T. Oekermann, T. Yoshida, H. Minoura (Gifu University), D. Wohrle (University of Bremen), and D. Schlettwein (University of Oldenburg) |
| o | 1588 |
Electroactive Poly-Dilithium Phthalocyanine Coatings for Lithium Battery Materials - N. Fackler (Nebraska Wesleyan University) and C. Johnson (Argonne National Laboratory) |
| o | 1589 |
STM and STS Study of Endohedral Metallofullerenes Adsorbed on Si(111)-(7x7) Surfaces - S. Fujiki (Graduate University for Advanced Studies), Y. Kubozono (Institute for Molecular Science), T. Hosokawa, T. Kanbara (Okayama University), A. Fujiwara (Japan Advanced Institute of Science and Technology), Y. Nonogaki, and T. Urisu (Institute for Molecular Science) |
| o | 1590 |
Carbon Nanocapsules with a Ferromagnetic Core Produced by a Catalytic Disproportionation of Carbon Monoxide - E.A. Katz (Ben-Gurion University of the Negev), O. Prilutskiy (CMC Ltd.), V. Ezersky (Ben-Gurion University of the Negev), and E. Mogilko (Bar-Ilan University) |
| o | 1591 |
Electron Transfer Reactions of La@C82-Lipid Bilayer Thin Films on Electrodes - N. Nakashima, M. Sakai (Nagasaki University), H. Murakami (Kyushu University), T. Sagara (Nagasaki University), T. Wakahara, and T. Akasaka (University of Tsukuba) |
| o | 1592 |
Cerium Endofullerenes: Purification and Spectroscopic Analysis - M. Kanai, J. Dennis (University of London), and H. Shinohara (Nagoya University) |
| o | 1593 |
Computations on N Encapsulations into Smaller Cages - Z. Slanina (Institute for Molecular Science) and T.J. Chow (Institute of Chemistry) |
| o | 1594 |
Isolation and Characterization of the First Fluoroxyfluorofullerene C60F17OF - J. Street (Southampton University) and R. Taylor (Sussex University) |
| o | 1595 |
Non-Central Location of Li in Li@C60 - Z. Slanina (Institute for Molecular Science), F. Uhlik (Charles University), and T.J. Chow (Institute of Chemistry) |
| o | 1596 |
Physical Studies of the Langmuir-Blodgett (LB) Films of the C60F18 - N. Denisenko, S. Yudin, O. Boltalina, and V. Kolesov (ECS) |
| o | 1597 |
[60] Fullerene Fluorination by Molecular Florine in Chemically Active Matrices - A. Kepman, N. Chilingarov, S. Abramov, A. Borshchevsky, I. Golyshevsky, J. Rau, and L. Sidorov (Moscow State University) |
| o | 1598 |
Solid-phase Reactions of C60 as a Method for Generation of Gaseous Thermal Anions of Fullerene Derivatives - V. Aleshina, D. Ponomarev, A. Borshchevsky, A. Goriunkov, A. Astakhov, E. Alexeev, and N. Shustova (Moscow State University) |
| o | 1599 |
In-situ Observation of Raman Spectrum of Isolated Single-Wall Carbon Nanotube on Au Electrode - K.-I. Okazaki, K. Murakoshi, and Y. Nakato (Osaka University) |
| o | 1600 |
Dry Sample Preparation for MALDI of Derivatised Fullerenes - S. Kotsiris, Y. Vasilev (University Of Warwick), A. Streletskiy, O. Boltalina (Moscow State University), and T. Drewello (University Of Warwick) |
| o | 1601 |
Production of Small Binary Carbon Clusters by Laser Ablation of Thin Films of Derivatised Fullerenes - D. Wallis, Y. Vasilev, N. Clipston (University of Warwick), A. Lobach (Russian Academy of Sciences), A. Hirsch (Universitat Erlangen), O. Boltalina (Moscow State University), C. Lenz (Applied Biosystems), and T. Drewello (University of Warwick) |
| o | 1602 |
Alkali Cation Attachment to Derivatized Fullerenes Studied by Matrix-Assisted Laser Desorption/Ionization - D. Fati, V. Leeman, Y. Vasilev (University of Warwick), B. Leyh (University of Liege), H. Hungerbuhler (Technische Fachhochschule Berlin), and T. Drewello (University of Warwick) |
| o | 1603 |
Excited Electronic States and Relative Stabilities of C80 Isomers - Z. Slanina (Institute for Molecular Science), F. Uhlik (Charles University), K. Kobayashi, and S. Nagase (Institute for Molecular Science) |
| o | 1604 |
Evaluations of Interaction Energies for Larger Complexes and Endohedrals - Z. Slanina (Institute for Molecular Science), M.-A. Hsu (Institute of Chemistry), J.-M. Fang (National Taiwan University), and T.J. Chow (Institute of Chemistry) |
| o | 1605 |
Gibbs Energy Treatment on a Set of C60F36 Isomers - Z. Slanina (Inst. for Molecular Science), F. Uhlik (Charles University), and L. Adamowicz (University of Arizona) |
| o | 1606 |
Carbon Nanotubes by Low Temperature Thermal CVD Process for FED Applications - E. Rouviere, T. Krebs, J. Dijon, T. Goislard, A. Fournier, and D. Zanghi (Commissariat a l'Energie Atomique de Grenoble) |
| o | 1607 |
Molecular Polarizabilities of Model Carbon Nanotubes from Atomic Increments - F. Torrens (Universitat de Valencia) |
| o | 1608 |
Influence of External Factors on a Spectrum of Plasma Fluctuations in Carbon Nanotubes - M. Brjezinskaya, Y. Baytinger (Chelyabinsk State Pedagogical University), and V. Shnitov (Russian Academy of Science) |
| o | 1609 |
Magneto-transport in Dense Arrays of Multiwall Carbon Nanotubes - V. Samuilov (SUNY), J. Galibert (Laboratoire National des Champs Magnetiques Pulses), E. Couteau, M. Seo, L. Forro (Ecole Polytechnique Federale de Lausanne), M. Rafailovich, and J. Sokolov (SUNY) |
| o | 1610 |
Formation Pathway and Transport Properties of Carbon Nanotube T-Junctions - I. Ponomareva, L. Chernozatonskii (Institute of Biochemical Physics of RAS), A. Andriotis (Foundation for Research and Technology-Hellas), and M. Menon (University of Kentucky) |
| o | 1611 |
A Large-Scale Synthesis Process of Carbon Nanofibers through Simplified Thermal Growth - J.-M. Chen, C.-T. Hsieh, and Y.-H. Huang (Industrial Technology Research Institute) |
| o | 1612 |
Hydrogen-Functionalized Carbon-Nanotube Rectifier at Room Temperature - K.S. Kim, D.J. Bae (Sungkyunkwan University), J.R. Kim (Chonbuk National University), K.A. Park, K.G. Jeon, S.C. Lim (Sungkyunkwan University), J.-J. Kim (Chonbuk National University), W.B. Choi (Samsung Advanced Institute of Technology), and Y.H. Lee (Sungkyunkwan University) |
| o | 1613 |
EDLC Application of Carbon Nanofibers/Carbon Nanotubes Electrode Prepared by Electrospinning - C. Kim and Y.H. Lee (Sungkyunkwan University) |
| o | 1614 |
Electrochemical Characterization of Supercapacitors Using Fluorinated Singlewalled Carbon Nanotube Electrodes - J.Y. Lee, K.H. An, K.K. Jeon, J.G. Heo, and Y.H. Lee (Sungkyunkwan University) |
| o | 1615 |
Computer Studies of Hydrogen Ion Channeling in Open Carbon Nanotube - V. Eltekov (Moscow State University) |
| o | 1616 |
Hybrid Materials Based on Single-Walled Carbon Nanotubes and Tetraazamacrocyclic Compounds - E. Basiuk (Golovataya-Dzhymbeeva), V. Basiuk (Universidad Nacional Autonoma de Mexico), E. Rybak-Akimova (Tufts University), D. Acosta-Najarro, and J. Saniger (Universidad Nacional Autonoma de Mexico) |
| o | 1617 |
Growth Mechanisms for Single-Walled Nanotubes without Metal Catalysts - S. Matyunin, Z. Kosakovskaya (RAS), and A. Iarochenko (Nanotech Innovations Corp.) |
| o | 1618 |
Side Gate Nanotransistors by Using Selectively Grown Vertical Carbon Nanotubes - E. Bae, Y.-S. Min, B.-H. Cheong, J.-H. Ko, E. Lee, and W.B. Choi (Samsung Advanced Institute of Technology) |
| o | 1619 |
Comparison of Characteristics of Carbon Nanotubes Grown by Plasma Enhanced Chemical Vapor Deposition and Thermal Chemical Vapor Deposition - H.J. Kim, I.T. Han, Y.J. Park, J.M. Kim (Samsung Advanced Institute of Technology), B.K. Kim, and N.-S. Lee (Se-jong University) |
| o | 1620 |
Fullerenes, Nanotubes, and Nanoclusters as Nonlinear Optical Limiters - V. Belousov, I. Belousova, O. Danilov, V. Grigor'ev, E. Gavronskaya, A. Krisko, N. Mironova, T. Murav'eva (Institute for Laser Physics), A. Ponomarev (Astrin. Inc.), A. Scobelev, and M. Yur'ev (Institute for Laser Physics) |
| o | 1621 |
Local Carbon Nanotubes Growth in Porous Aluminum Oxide - V. Dvorkin, N. Dzbanovsky, N. Suetin (Moscow State University), E. Poltoratsky, G. Richkov, E. Il'ichev, and S. Gavrilov (Zelenograd's Physical Problems Institute) |
| o | 1622 |
A Combined IR, Raman and STM Study on the Structure of All-fullerene Core Self-organized Nanorods - A. Kukovecz, M. Mannsberger (University of Vienna), V. Georgakilas, M. Prato (University of Trieste), M. Smolik, and H. Kuzmany (University of Vienna) |
| o | 1623 |
Effects of Radio-Frequency Glow-Discharge Reactive Plasma on Carbon Nanotube Growth Process - T. Hirata, N. Satake, G.-H. Jeong, R. Hatakeyama, and K. Thoji (Tohoku University) |
| o | 1624 |
The Effect of Trigonal Warping on Resonance Raman Excitation of DWCNTs - R. Pfeiffer, C. Kramberger, H. Kuzmany (Vienna University), and H. Kataura (Metropolitan University Tokyo) |
| o | 1625 |
A Carbon Nanotube Based Nanorelay - M. Jonsson, T. Nord (Chalmers University of Technology and Goteborg University), S. Viefers (University of Oslo), and J. Kinaret (Chalmers University of Technology and Goteborg University) |
| o | 1626 |
Low-temperature Synthesis of Copper-Filled Carbon Nanotubes in Condensed Medium - A. Didik, V. Kodolov, A. Volkov, and E. Volkova (Russian Academy of Sciences) |
| o | 1627 |
A Novel Route of Carbon Nanotube Production in Organic Liquid - M. Nishitani-Gamo (University of Tsukuba), K. Nakagawa (NIMS), H. Gamo (Toppan Printing Co. Ltd.), and T. Ando (NIMS) |
| o | 1628 |
Thermodynamic and Kinetic Sorption at Accumulation of Gases in Nanomaterials - A. Mikhailov, S. Kuzina, A. Tcherban, I. Shilova, and O. Skrebkov (Russian Academy of Sciences) |
| o | 1629 |
Vertically Aligned Carbon Nanotubes Synthesized by Plasma Chemical Vapor Deposition - R. Morjan (Goteborg University and Chalmers University of Technology), O. Nerushev (Institute of Thermophysics), A. Gromov (Goteborg University and Chalmers University of Technology), V. Maltsev (Institute of Thermophysics), and E. Campbell (Goteborg University and Chalmers University of Technology) |
| o | 1630 |
Reflection and Transmission Coefficients of Thin Films in Green’s Function Approach - I. Bariakhtar (Boston College), V. Lozovski, and L. Baraban (National University of Kyiv) |
| o | 1631 |
Low Temperature Photoluminescence of Helium-Intercalated Fullerite C_60 - A. Avdeenko, V. Eremenko, N. Silaeva, P. Zinoviev, and V. Zoryansky (National Academy of Sciences of Ukraine) |
| o | 1632 |
Intercalation of Fullerite C60 with Potassium: 13C and 39K NMR Data - E. Skokan (Lomonosov State University), V. Tarasov, V. Privalov (RAS), V. Aleshina (Lomonosov State University), Y. Muravlev (RAS), and I. Arkhangelskii (Lomonosov State University) |
| o | 1633 |
Elecrochemical Intercalation of Fullerite C60 using Solid Electrolytes - Y. Dobrovolskii, L. Leonova (RAS), E. Skokan, I. Arkhangelskii, and A. Borschevskii (Lomonosov Moscow State University) |
| o | 1634 |
Structural and Electrochemical Properties of Fullerene C60 and Fluorinated Fullerenes Treated at High Pressure and High Temperature - A. Yao, Y. Matsuoka, S. Komiyama, S. Kawasaki, F. Okino, and H. Touhara (Shinshu University) |
| o | 1635 |
Low Temperature XRD Investigation of Solid C60 Intercalated by nH2 - K. Yagotintsev, Y. Stetsenko, I. Legchenkova, A. Prokhvatilov, and M. Strzhemechny (National Academy of Science of Ukraine) |
| o | 1636 |
Diffusion of He into Solid C60 from X-ray Diffraction Data - I. Legchenkova, Y. Stetsenko, K. Yagotintsev, A. Prokhvatilov, M. Strzhemechny (National Academy of Science of Ukraine), and R. Ruoff (Northwestern University) |
| o | 1637 |
Bacteriostatic Effect of C60-(N,N-dimethylpyrrolidinium iodide) Derivatives - T. Mashino, D. Nishikawa, K. Takahashi, and M. Mochizuki (Kyoritsu College of Pharmacy) |
| o | 1638 |
Aqueous Molecular–Colloidal Solution of Fullerene C_60: Peculiarities for Luminescence - G.V. Andrievsky (Institute for Therapy of Ukrainian), A.A. Avdeenko (National Academy of Sciences of Ukraine), L.I. Derevyanchenko (Institute for Therapy of Ukrainian), V.I. Fomin (National Academy of Sciences of Ukraine), V.K. Klochkov (Institute for Therapy of Ukrainian), V.S. Kurnosov, and A.V. Peschanskii (National Academy of Sciences of Ukraine) |
| o | 1639 |
Buckminsterfullerene C60 Derivatives as Neuroprotective Catalytic Antioxidants - J. Hardt, K. Quick, R. Heard, J.S. Kim-Han, E. Lovett, and L. Dugan (Washington University) |
| o | 1640 |
Photoinduced Magnetic Changes in Fullerene Films - I.B. Zakharova (St.Petersburg State Technical University) and T.L. Makarova (Umea University) |
| o | 1641 |
Computing Temperature Development of the Ca@C72 Isomeric System - Z. Slanina, K. Kobayashi, S. Nagase (Institute for Molecular Science), and L. Adamowicz (University of Arizona) |
| o | 1642 |
Ferromagnetic Behavior of Polymeric C60 - T.L. Makarova, B. Sundqvist, and A. Shelankov (Umea University) |
| o | 1643 |
High-Pressured C-70 Phases: Modeling and Diffraction Analysis - L. Chernozatonskii (Institute of Biochemical Physics of RAS) and N. Serebrynaya (Institute of Spectroscopy of RAS) |
| o | 1644 |
Oxygen Pumping Characteristics of Cu-Ti Double Substituted Bismuth Vanadate - M.H. Paydar (Shiraz University), M.A. Hadian (University of Tehran), and G. Fafilek (University of Technology of Vienna) |
| o | 1645 |
Structural Characterization And Optical Propertise Of NiTiO_3 Powders Prepared By Polymeric Precursor Method - Y.J. Lin and Y.H. Chang (National Cheng Kung University) |
| o | 1646 |
Synthesis and Properties of New Mono- and Bis-Pyrrolidinofullerenes - I.A. Nuretdinov, V.P. Gubskaya, I.P. Karaseva, N.I. Shishikina, E.V. Ovechkina, V.V. Yanilkin, and V.V. Zverev (A.E.Arbuzov Institute of Organic and Physical Chemistry) |
| o | 1647 |
Transformation of Carbon Onion Core into Diamond Like Structure - I. Ponomareva and L. Chernozatonskii (Russian Academy of Sciences) |
| o | 1648 |
The Electrochemical Behavior of Nanoscale Cobalt and Iron Mineral Cores in Ferritin Protein Shells - G. Watt, B. Zhang, J. Harb (Brigham Young University), and S. Choi (NASA Langley Research Center) |
| o | 1649 |
Si Nanowire Growth Controlled by Variable Pressure - F. Kolb, D.D. Ma (Max-Planck-Institute of Microstructure Physics), S.-T. Lee (City University of Hong Kong), and M. Zacharias (Max-Planck-Institute of Microstructure Physics) |
| o | 1650 |
Phospholipid Coverage of Carbon Agregates - M. Lopez (Comision Nacional de Energia Atomica), R.E. Partch (Clarkson University), and E.E. Pasqualini (Comision Nacional de Energia Atomica) |
| o | 1651 |
Low Temperature CNT Growth and Its Application to Field Emission Display - G.B. Kim, S.M. Lee (Sejong University), K.H. Han (Dept. of Electronics Eng., Sejong University), S.S. Park, H.S. Uh (Sejong University), and S.J. Kwon (Kyungwon University) |
| o | 1652 |
Confinement of Oxides and Semi-Metals in Carbon Nanotubes - J. Chancolon, F. Archaimbault, A. Pineau, S. Delpeux, M.-L. Saboungi, and S. Bonnamy (University of Orleans) |
|