Nanotechnology Community
HomeThe SocietyNano HubMembershipBenefitsHow Are Fellows Elected?For Reviewers

Igor Medvedev

Physical Electrochemistry
A.N. Frumkin Institue of Physycal Chemistry and Electrochemistry of Russian Academy of Sciences


Selected publications relevant to the subject:

[1] A.M. Kuznetsov, I.G. Medvedev. Effects of inter-group correlations on sequential electron transitions through redox-mediated two-center electrochemical bridged contact. Electrochim. Acta, 2009, V. 54, P. 7128-7133.

[2] A.M. Kuznetsov, I.G. Medvedev. J. Ulstrup. Coulomb repulsion effect in two-electron nonadiabatic tunnelling through a one-level redox molecule. J. Chem. Phys., 2009, V. 131, 164703 (1-16).

[3] I.G. Medvedev. Effect of interdot Coulomb repulsion on tunneling current through a double quantum dot system in the weak-tunneling limit: Strong electron-phonon coupling. Phys. Rev. B, 2009, V. 80, 035312 (1-15).

[4] A.M. Kuznetsov, I.G. Medvedev. Coulomb repulsion effect on the tunnel current through the redox molecule in the weak tunneling limit. Phys. Rev. B, 2008, V. 78, 153403 (1-4).

[5] A.M. Kuznetsov, I.G. Medvedev. A theory of redox-mediated electron tunneling through an electrochemical two-center contact. J. Phys.: Condens. Matter, 2008, V. 20, 374112 (1-14).

[6] I.G. Medvedev. Effect of the density of the electronic states at the valence orbital of the bridge redox molecule on the dependence of the tunnel current on the overvoltage in the case of the fully adiabatic electron trunsitions. Electrochim. Acta, 2008, V. 53, P. 6545-6558.

[7] A.M. Kuznetsov, I.G. Medvedev. On the possibility of STM-control of dissociative electron transfer. Electrochem. Comm., 2007, V. 9, P. 1624-1628.

[8] A.M. Kuznetsov, I.G. Medvedev, J. Ulstrup. Electric double layer effect on observable characteristics of the tunnel current through a bridged electrochemical contact. J. Chem. Phys., 2007, V. 127, 104708 (1-11).

[9] I.G. Medvedev. Tunnel current through a redox molecule coupled to classical phonon modes in the strong tunneling regime. Phys. Rev. B, 2007, V. 76, 125312 (1-10).

[10] I.G. Medvedev. The theory of in situ scanning tunneling microscopy of redox molecules in the case of the fully adiabatic electron transitions. J. Electroanal. Chem., 2007, V. 600, P. 151-170.

Review article:

J. Zhang, A.M. Kuznetsov, I.G. Medvedev, Q. Chi, T. Albrecht, P.S. Jensen,
J. Ulstrup. Single-molecule electron transfer in electrochemical environments,
Chem. Rev., 2008, V. 108, P. 2737-2791.
Grade: Member

Member since May 17, 2011
Contact Details
Address: Leninsky prospect 31, 119991, Moscow, Russian Federation
Phone: +7(495) 955-46-78
Email: visible to members only
The Society
Our Mission
Nano Hub