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New Carbon Based Materials for Electrochemical Energy Storage Systems: Batteries, Supercapacitors and Fuel Cells

  • Igor V. Barsukov
  • Christopher S. Johnson
  • Joseph E. Doninger
  • Vyacheslav Z. Barsukov

Part of the NATO Science Series II: Mathematics, Physics and Chemistry book series (NAII, volume 229)

Table of contents

  1. Front Matter
    Pages I-XXIV
  2. NEW CARBON MATERIALS FOR SUPERCAPACITORS

    1. Front Matter
      Pages I-XXIV
    2. E. Frackowiak, J. Machnikowski, F. Béguin
      Pages 5-20
    3. Volodymyr Khomenko, Encarnacion Raymundo-Piñero, François Béguin
      Pages 33-40
    4. V. Khomenko, E. Frackowiak, V. Barsukov, F. Béguin
      Pages 41-50
    5. Yurii Maletin, Natalie Strizhakova, Vladimir Izotov, Antonina Mironova, Sergey Kozachkov, Valerie Danilin et al.
      Pages 51-62
  3. CARBON MATERIALS FOR GAS DIFFUSION ELECTRODES, METAL AIR CELLS AND BATTERIES

  4. CARBON ANODES FOR LITHIUM-ION BATTERIES

    1. Front Matter
      Pages I-XXIV
    2. Tsutomu Takamura, Ralph J. Brodd
      Pages 157-169
    3. H. J. Santner, K. C. Möller, W. Kohs, C. Veit, E. Lanzer, A. Trifonova et al.
      Pages 171-188
    4. Mariusz Walkowiak, Krzysztof Knofczynski, Daniel Waszak, Maciej Kopczyk, M. Rusinek, Jacek Machnikowski
      Pages 189-196
    5. Doron Aurbach, Maxim Koltypin, Hnnan Teller, Yaron S. Cohen
      Pages 197-211
    6. Francois-Xavier Henry, Igor V. Barsukov, Joseph E. Doninger, Scott Anderson, Peter R. Booth, Peter L. Zaleski et al.
      Pages 213-229
    7. F. Béguin, F. Chevallier, M. Letellier, C. Vix, C. Clinard, J.N. Rouzaud et al.
      Pages 231-243
    8. Alexandr N. Kozhevnikov, Yuri A. Podalinski, Olga R. Yakovleva, Vladimir S. Kotlyar, Mikhail E. Petropavlovski, Victor G. Smirnov et al.
      Pages 259-268
    9. A.V. Churikov, N.A. Gridina, N.V. Churikova
      Pages 269-276
    10. Rachid Yazami, Irina V. Goncharova, Vladimir N. Plakhotnik
      Pages 277-282
    11. J. Liu, D. R. Vissers, K. Amine, I.V. Barsukov, J.E. Doninger
      Pages 283-292
  5. EMERGING METAL/CARBON COMPOSITE ANODES FOR NEXT GENERATION LITHIUM-ION BATTERIES

    1. Front Matter
      Pages I-XXIV
    2. Yevgen O. Illin, Viacheslav Z. Barsukov, Viktor S. Tverdokhleb
      Pages 309-316
    3. Joseph S. Gnanaraj, Malgorzata K. Gulbinska, Joseph F. DiCarlo, Igor V. Barsukov, Nancy Holt, Viacheslav Z. Barsukov et al.
      Pages 317-331
    4. L. G. Reiter, V. A. Potaskalov, A. A. Andriiko, V. S. Kublanovsky, M. A. Chmilenko, Yu. K. Pirskiy et al.
      Pages 333-344
    5. Ludmyla Matzui, Mykhailo Semen’ko, Mykol Babich, Leonid Kapitanchuk
      Pages 345-356
    6. Christopher S. Johnson, Kevin Lauzze, Nick Kanakaris, Arthur Kahaian, Michael M. Thackeray, Khalil Amine et al.
      Pages 357-376
  6. NEW NANO- THROUGH MACRO-CARBONS FOR ENERGY SYSTEMS: SYNTHESIS, MODELING, CHARACTERIZATION

    1. Front Matter
      Pages I-XXIV
    2. M.V. Savoskin, A.P. Yaroshenko, R.D. Mysyk, G.E. Whyman
      Pages 381-387
    3. Igor O. Kovalenko, Mayya L. Barsukov, Vyacheslav Z. Barsukov, Y. V. Myshko
      Pages 389-398
    4. Svetlana Dimovski, Alexei Nikitin, Haihui Ye, Yury Gogotsi
      Pages 399-410
    5. Jean-Noël Rouzaud, Christian Clinard, Frédéric Chevallier, Alexandre Thery, François Béguin
      Pages 411-424
    6. S.A. Kochetova, N.Kh. Tumanova
      Pages 425-432
    7. M.V. Savoskin, A.P. Yaroshenko, V.N. Mochalin, N.I. Lazareva, T.E. Konstantinova
      Pages 433-439
  7. CARBONS IN THE CATHODES OF LITHIUM-ION BATTERIES; ALTERNATIVE FORMS OF MnO2, CATHODE / CARBON MODELING

    1. Front Matter
      Pages I-XXIV
    2. S.A. Kirillov, T.V. Lesnichaya, N.M. Visloguzova, S.A. Khainakov, O.I. Pendelyuk, D.I. Dzanashvili et al.
      Pages 473-479
    3. I. S. Makyeyeva, N. D. Ivanova, G. V. Sokolsky
      Pages 481-486
    4. Nataliya E. Vlasenko, Nataliya D. Ivanova, Evgeniy I. Boldyrev, Olga A. Stadnik
      Pages 487-493
  8. Back Matter
    Pages 513-523

About these proceedings

Introduction

Carbonaceous materials play a fundamental role in electrochemical energy storage systems. Carbon in the structural form of graphite is widely used as the active material in lithium-ion batteries; it is abundant, and environmentally friendly. Carbon is also used to conduct and distribute charge effectively throughout composite electrodes of supercapacitors, batteries and fuel cells. The electronic conductive pathways are critical to delivering and extracting current out of the device. However, many challenges and the understanding of the role of carbon and its stability and efficiency in charge storage applications still exists. This NATO-ARW volume contains a diverse collection of papers addressing the role of carbon in some key electrochemical systems, both conventional and emerging. These papers discuss the latest issues associated with development, synthesis, characterization and use of new advanced carbonaceous materials for electrochemical energy storage. Such systems include: metal-air primary and rechargeable batteries, fuel cells, supercapacitors, cathodes and anodes of lithium-ion and lithium polymer rechargeable batteries, as well as nanocarbon materials of the future.

Keywords

LED Magnesium Nanotube PES STEM carbon nanotubes electrolysis fuel cell optimization thermodynamics transmission electron microscopy

Editors and affiliations

  • Igor V. Barsukov
    • 1
  • Christopher S. Johnson
    • 2
  • Joseph E. Doninger
    • 3
  • Vyacheslav Z. Barsukov
    • 4
  1. 1.Superior Graphite Co.ChicagoU.S.A.
  2. 2.Argonne National LaboratoryArgonneU.S.A.
  3. 3.Dontech Global, Inc.Lake ForestU.S.A.
  4. 4.Kiev National University of Technologies and DesignKievUkraine

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