1. Y. Zelinskyy and V. May:
    Laser pulse induced transient currents in a molecular junction: Effects of plasmon excitations of the leads
    J. Chem. Phys. 142, 224701 (2015).
  1. Y. Zelinskyy and V. May:
    Charge Transmission Through a Molecular Junction: Voltage Pulse Induced Transient Currents
    Chem. Phys. 439, 17 (2014).
  1. Y. Zhang, Y. Zelinskyy, and V. May:
    Plasmon Enhanced Electroluminescence of a Single Molecule: A Theoretical Study
    Phys. Rev. B 88, 155426 (2013).
  1. Y. Zelinskyy, Y. Zhang, and V. May:
    Photoinduced Dynamics in a Molecule Metal Nanoparticle Complex: Mean-Field Approximation Versus Exact Treatment of the Interaction
    J. Chem. Phys. 138, 114704 (2013).
  1. G. Kyas, Y. Zelinskyy, Y. Zhang, V. May:
    Spatio-Temporal Excitation Energy Localization in a Supramolecular Complex Coupled to a Metal-Nanoparticle: special issue "Ultrafast Phenomena at the Nanoscale"
    Ann. Phys. (Berlin), 525, 189 (2013).
  1. Y. Zhang, Y. Zelinskyy, V. May:
    Plasmon-Enhanced Single-Molecule Electroluminescence: A Computational Study
    J. Phys. Chem. C, 116, 25962 (2012).
  1. Y. Zhang, Y. Zelinskyy, V. May:
    Time and frequency resolved emission of molecular systems coupled to a metal nanoparticle
    Journal of Nanophotonics, 6, 063533 (2012).
  1. Y. Zelinskyy, Y. Zhang, V. May:
    A Supramolecular Complex Coupled to a Metal Nanoparticle: Computational Studies on the Optical Absorption
    J. Phys. Chem. A, Joern-Manz-Festschrift, 116, 11330 (2012).
  1. V. May, J. Megow, Y. Zelinskyy:
    Excitation Energy Transfer in Molecular Complexes: Transport Processes, Optical Properties and Effects of Nearby Placed Metal Nano-Particles
    Proc. SPIE 8424, 842403-1 (2012).
  1. Y. Zelinskyy and V. May:
    Photoinduced Switching of the Current through a Single Molecule: Effects of Surface Plasmon Excitations of the Leads
    Nano Lett. 12, 446 (2012).
  1. J. Megow, Y. Zelinskyy, B. Röder, A. Kulesza, D. Mitric, and V. May:
    Transient Absorption Spectra of Excitation Energy Transfer in Supramolecular Complexes: A Mixed Quantum-Classical Description of Pheophorbide-a Systems
    Chem. Phys. Lett. 522, 103 (2012).
  1. Y. Zelinskyy and V. May:
    Optical Properties of Supramolecular Complexes Coupled to a Metal-Nanoparticle: A Computational Study
    Chem. Phys. Lett. 1511, 372 (2011).
  1. Ya.R. Zelinskyy, E.G. Petrov, M.V. Koval:
    Influence of metallic contacts on elastic and inelastic transmission processes in molecular wires
    Nanosystems, Nanomaterials, Nanotechnologies (in Ukrainian) 7, 15 (2009).
  1. Ya.R. Zelinskyy and E.G. Petrov:
    Photoinduced inter-electrode current through the molecule
    Ukr.J.Phys. 54, 707 (2009).
  1. E.G. Petrov and Ya.R. Zelinskyy:
    Photoblocking of electron transmission through the molecule
    Reports of National Academy of Science of Ukraine (in Ukrainian), 5, 94 (2009).
  1. E.G. Petrov, Ya.R.Zelinskyy, V. May, P. Hänggi:
    Charge transmission through a molecular wire:
    How can the terminal wire units effect the current-voltage characteristics?

    J. Chem. Phys. 127, 084709 (2007).
  1. Ya.R. Zelinskyy, M.V. Koval, E.G. Petrov:
    Influence of metallic contacts on elastic and inelastic transmission processes in molecular wires
    Nanosystems, Nanomaterials, Nanotechnologies (in Ukrainian), 5, 649 (2007).
  1. E.G. Petrov, Ya.R. Zelinskyy, V.I. Teslenko:
    Current asymmetry caused by molecule-electrode contacts
    Mol. Cryst. Liq. Cryst. 467, 93 (2007).
  1. E.G. Petrov E.G., Ya.R. Zelinskyy, V. May V., P. Hänggi:
    Kinetic Control of the Current through a Single Molecule
    Chem. Phys. 328, 173 (2006).
  1. Ya.R. Zelinskyy and E.G. Petrov:
    Rectification Properties of a Molecular Wire Caused by its Terminal Groups
    Ukr. J. Phys. 51, 805 (2006).
  1. E.G. Petrov, Ya.R. Zelinskyy, V. May:
    Bridge-mediated two-electron transfer via delocalized bridge orbitals
    J. Phys. Chem B 108, 13208 (2004).
  1. E.G. Petrov, V.I. Teslenko, Ya.R. Zelinskyi:
    Length Dependense of the Thermally Activated Inelastic and Elastic Tunnel Current through a Molecular Wire
    Ukr. J. Phys. 48, 823 (2003).
  1. E.G. Petrov, Ya.R. Zelinskyy, V. May:
    Bridge Mediated Electron Transfer:
    A Unified Description of the Thermally Activated and Superexchange Mechanisms

    J. Phys. Chem. B 106, 3092 (2002).
  1. E.G. Petrov, V.V. Marchenko, Ya.R. Zelinskyy:
    On the Influence of Electron-electron Correlation on the Current-Voltage Characteristics of a Short Molecular Wire
    Mol. Cryst. Liq. Cryst. 385, 1 (2002).
  1. E.G. Petrov, Ya.R. Zelinskii, P. Hänggi:
    Nonlinear Properties of an Inter-Electrode Current Through a Short Molecular Wire
    Mol. Cryst. Liq. Cryst. 361, 209 (2001).