| 1 |
Electrocatalytic properties of manganese and cobalt polyporphine films toward oxygen reduction reaction
Konev DV, Istakova OI, Dembinska B, Skunik-Nuckowska M, Devillers CH, Heintz O, Kulesza PJ, Vorotyntsev MA
Journal of Electroanalytical Chemistry, 816, 83, 2018 |
| 2 |
Efficient synthesis of a new electroactive polymer of Co(II) porphine by in-situ replacement of Mg(II) inside Mg(II) polyporphine film
Rolle SD, Konev DV, Devillers CH, Lizgina KV, Lucas D, Stern C, Herbst F, Heintz O, Vorotyntsev MA
Electrochimica Acta, 204, 276, 2016 |
| 3 |
Electropolymerization of non-substituted Mg(II) porphine: Effects of proton acceptor addition
Konev DV, Devillers CH, Lizgina KV, Baulin VE, Vorotyntsev MA
Journal of Electroanalytical Chemistry, 737, 235, 2015 |
| 4 |
Synthesis of new electroactive polymers by ion-exchange replacement of Mg(II) by 2H(+) or Zn(II) cations inside Mg(II) polyporphine film, with their subsequent electrochemical transformation to condensed-structure materials
Konev DV, Devillers CH, Lizgina KV, Zyubina TS, Zyubin AS, Maiorova-Valkova LA, Vorotyntsev MA
Electrochimica Acta, 122, 3, 2014 |
| 5 |
Use of the resonance Raman intensities to check the density functional theory derived force field of the free base porphine
Tazi M, Lagant P, Vergoten G
Journal of Physical Chemistry A, 104(3), 618, 2000 |
