Ой, сталась помилка! А де ж JavaScript? Схоже, що Ваш переглядач не підтримує технологію JavaScript або її вимкнено. Будь ласка, увімкніть JavaScript для коректного відображення цього сайту, або використайте іншого переглядача інтернет сторінок, який має підтримку JavaScript.

Персональна сторінка

Профілі у науково-метричних базах:

Наукові публікації у періодичних виданнях, які включені до наукометричних баз, рекомендованих МОН, у тому числі Scopus або Web of Science Core Collection за останні десять років:

  1. A. Menon, Yu. Slominskii, J. Joseph, O. Dimitriev, D.M. Guldi (2020): Reversible charge transfer with single-walled carbon nanotubes upon harvesting the low energy part of the solar spectrum. Small, 16, 1906745.
  2. O. Dimitriev, A. Fedoryak, Yu. Slominskii, A. Smirnova, T. Yoshida (2020): Phonon-assisted anti-Stokes luminescence of tricarbocyanine near-infrared dye. Chem. Phys. Lett., 738, 136905.
  3. O.P.Dimitriev, T. Yoshida, H. Sun (2020): Principles of solar energy storage. Energy Storage, 2020;2:e96.
  4. O.P.Dimitriev, Yu.P. Piryatinski, Yu.L. Slominskii (2019): Abnormal emission in the heterogeneous J-aggregate system. J. Phys. Chem. C 123, 28611−28619
  5. O.P.Dimitriev (2019): Harvesting of the infrared energy: Direct collection, up-conversion, and storage. Semicond. Physics, Quantum Electronics Optoelectronics, 22, 457-469.
  6. M. Kratzer, O.P.Dimitriev, A.N. Fedoryak, N.M. Osipyonok, P. Balaz, M.Balaz, M.Tesinsky, C. Teichert (2019): The role of the probe tip material in distinguishing p- and n- type domains in bulk heterojunction solar cells by atomic force microscopy based methods, J. Appl. Phys. 125, 185305.
  7. M.M. Sieryk, O.P. Dimitriev (2019): Tuned aggregation and film self-assembly of monomethincyanine dyes through variation of their monomer structure. Semicond. Physics, Quantum Electronics Optoelectronics, 22, 53-59.
  8. K. Uda, Y. Tsuda, S. Okada, R.Yamakado, L. Sun, Y. Suzuri, M. S. White, M. Furis, P. Stadler, O. Dimitriev, T. Yoshida (2019): Concerted Photoluminescence of Electrochemically Self-Assembled CuSCN/Stilbazolium Dye Hybrid Thin Films. ACS Omega 4, 4056−4062.
  9. Y. Tsuda, T. Nakamura, K. Uda, S. Okada, R.Yamakado, L. Sun, Y. Suzuri, P. Stadler, O. Dimitriev, T. Yoshida (2019): Switching of Dye Loading Mechanism in Electrochemical Self-Assembly of CuSCN/4-(N,N-dimethylamino)-4′- (N′-methyl)Stilbazolium Hybrid Thin Films. J. Electrochem. Soc. 166(9), B3096-B3102.
  10. K. Uda, Y. Tsuda, S. Okada, R.Yamakado, L. Sun, Y. Suzuri, M. S. White, M. Furis, P. Stadler, O. Dimitriev, T. Yoshida (2019): Photoluminescent property of electrochemically self-assembled CuSCN/dye hybrid thin films. ESC Transactions, 88, 323-333.
  11. P.Smertenko, O.Dimitriev, L. Pochekailova, N. Chernyshov (2018): Technological Transformations and Their Implications for Higher Education. In: Sustainable Futures for Higher Education (Editors: J.Valsiner, A. Lutsenko, A. Antoniouk) Springer International Publishing, 2018, 67-75.
  12. O.P. Dimitriev, D.A. Blank, C. Ganser, C. Teichert (2018): Effect of the Polymer Chain Arrangement on Exciton and Polaron Dynamics in P3HT and P3HT:PCBM Films.  J. Phys. Chem. C 122 (30), pp 17096–17109.
  13. O.P.Dimitriev, Yu.P. Piryatinski, Yu.L. Slominskii, (2018): Excimer emission in J-aggregates. J. Phys. Chem. Lett., 9, 2138–2143.
  14. M.Sieryk, O.P.Dimitriev (2018): Self-assembly of monomethincyanine and merocyanine dyes: impact of the intramolecular dipole and substrate used. Front Nanosci Nanotech, 4, 1-6.
  15. V. Vyshniak, O. Dimitriev, S. Litvynchuk, V. Dombrovskyi (2018): Identification of beeswax and its falsification by the method of infrared spectroscopy. Ukrainian Food Journal, 7, 421-433.
  16. O.P.Dimitriev, D.O.Grynko, A.M.Fedoryak T.P.Doroshenko, M. Kratzer, C. Teichert, Yu.V.Noskov, N.A.Ogurtsov, A.A.Pud, P. Balaz, M.Balaz, M.Tesinsky (2017): Macroscopic versus microscopic photovoltaic response of heterojunctions based on mechanochemically prepared nanopowders of kesterite and n-type semiconductors. Semicond. Physics, Quantum Electronics Optoelectronics, 20, 418-423.
  17. O.P. Dimitriev (2017): Effect of confinement on photophysical properties of P3HT chains in PMMA matrix. Nanoscale Research Letters 12, 510.
  18. O.P. Dimitriev, J.L. Bricks, A.L. Smirnova, Yu.L. Slominskii (2017): Towards white-light generation through upconversion of low-power near-infrared photons, RSC Adv. 7, 16126.
  19. D. A. Grynko, A.N. Fedoryak, P.S. Smertenko, O.P. Dimitriev, N. A. Ogurtsov, A.A. Pud (2016): Hybrid solar cell on a carbon fiber. Nanoscale Research Letters 11, 265.
  20. A.A. Pud, I. Duboriz, Yu.P. Piryatinski, O.P. Dimitriev (2015): “Anion-chromic” interactions of emeraldine base with hydroxide and halide anions in the solid polymer matrix. Synth. Met., 209, 232–239.
  21. D.O. Grynko, A.N. Fedoryak, O. P. Dimitriev, A. Lin, R. B. Laghumavarapu, D.L. Huffaker, M.Kratzer, Yu. P. Piryatinski (2015): Template-assisted synthesis of CdS nanocrystal arrays in chemically inhomogeneous pores by vapor-solid mechanism. RSC Adv., 5, 27496 – 27501.