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Frontiers of Multifunctional Integrated Nanosystems

  • Eugenia Buzaneva
  • Peter Scharff

Part of the NATO Science Series II: Mathematics, Physics and Chemistry book series (NAII, volume 152)

Table of contents

  1. Front Matter
    Pages i-xii
  2. Modeling and computer simulation of characteristics nanosystems

    1. Yu. I. Prylutskyy, O. V. Ogloblya, M. V. Makarets, O. P. Dmytrenko, M. P. Kulish, E. V. Buzaneva et al.
      Pages 19-22
    2. D. A. Gavryushenko, V. M. Sysoev, L. Yu. Matzui, O. A. Golub, Yu. I. Prylutskyy, O. V. Ogloblya et al.
      Pages 23-30
  3. Nanotechnology of building blocks and integrated nanosystems

    1. J.M. Köhler, Th. Kirner, J. Wagner, A. Csáki, R. Möller, W. Fritzsche
      Pages 39-50
    2. L. Kavan, L. Dunsch, J. Heyrovský
      Pages 51-62
    3. Y. Rio, J. -F. Nierengarten, G. Accorsi, N. Armaroli
      Pages 63-70
    4. G. K. Zhavnerko, S. J. Yi, S. H. Chung, J. S. Yuk, K. -S. Ha
      Pages 95-108
    5. A. A. Eliseev, K. S. Napolskii, I. V. Kolesnik, Yu. V. Kolenko, A. V. Lukashin, P. Gornert et al.
      Pages 109-122
  4. Single and assembled molecules, nanoparticles on surface and interface investigations

    1. J. A. Schaefer, G. Cherkashinin, S. Döring, M. Eremtchenko, S. Krischok, D. Malsch et al.
      Pages 131-138
    2. A. V. Baranov, T. S. Perova, S. Solosin, R. A. Moore, V. Yam, V. Le Thanh et al.
      Pages 139-152
  5. Fundamental properties of carbon integrated nanosystems

    1. Peter Scharff, Shen Cui
      Pages 153-166
    2. L. Carta-Abelmann, P. Scharff, C. Siegmund, D. Schneider
      Pages 167-170
    3. H. Kuzmany, R. Pfeiffer, C. Kramberger, T. Pichler
      Pages 171-184
    4. S. Tamulevičius, L. Augulis, Š. Meškinis, V. Grigaliunas
      Pages 185-196
  6. Fundamental properties of silicon integrated nanosystems

    1. Anca Angelescu, Irina Kleps, Mihaela Miu, Monica Simion, Adina Bragaru, Stefana Petrescu et al.
      Pages 197-204
    2. E. V. Astrova, T. S. Perova, V.A. Tolmachev
      Pages 205-212
  7. Multifunctional applications of nanosystems

    1. R. Rinaldi, G. Maruccio, A. Bramanti, P. Visconti, A. Biasco, V. Arima et al.
      Pages 225-250
    2. E. Buzaneva, A. Gorchinskiy, P. Scharff, K. Risch, A. Nassiopoulou, C. Tsamis et al.
      Pages 251-276
    3. A. G. Nassiopoulou, V. Ioannou-Sougleridis, A. Travlos
      Pages 277-286
    4. Vladimir Makara
      Pages 299-308
    5. Tatiana Makarova
      Pages 331-342
    6. Sylvain Latil, Jean-Christophe Charlier, Angel Rubio, Christophe Goze-Bac
      Pages 343-358
    7. Claus M. Schneider, R. Kozhuharova, S. Groudeva-Zotova, B. Zhao, T. Mühl, I. Mönch et al.
      Pages 359-378
    8. Wolfgang Jantsch, Zbyslaw Wilamowski
      Pages 379-390
    9. C. Tsamis, A. G. Nassiopoulou
      Pages 399-408
    10. Carmen Moldovan, Gabriel Vasile, Mircea Modreanu
      Pages 409-422
    11. Dirk Nipprasch, Thorsten Kaufmann, Susann Kloeher, Katrin Risch
      Pages 423-430
    12. Joseph Wang, Arzum Erdem
      Pages 431-438
    13. Silke Krol, Alberto Diaspro, Ornella Cavalleri, Davide Cavanna, Paola Ballario, Benedetto Grimaldi et al.
      Pages 439-446
    14. G. I. Dovbeshko, O. P. Paschuk, O. M. Fesenko, V. I. Chegel, Yu. M. Shirshov, A. A. Nazarova et al.
      Pages 447-466
    15. Sue C. Bayliss, Iram Ashraf, Andrei V. Sapelkin
      Pages 467-471
  8. Back Matter
    Pages 473-482

About these proceedings

Keywords

Biopolymer Biosensor Cluster Fulleren Fullerene Nanocar Nanotube carbon nanotubes electron transport electronics microscopy nanotechnology proteins

Editors and affiliations

  • Eugenia Buzaneva
    • 1
  • Peter Scharff
    • 2
  1. 1.Kiev National Taras Shevchenko UniversityUkraine
  2. 2.Institut für Physik/FG ChemieTechnische Universität IlmenauGermany

Bibliographic information