Institut Charles Sadron Membre

Nataliya Kutsevol

  • Téléphone :
  • Courriel :
  • DR
  • Bureau : F047
  • Equipe : PECMAT


Yeshchenko, O.A.; Kutsevol, V.N.; Tomchuk, V.A.; Khort, P.S.; Virych, P.A.; Chumachenko, V.A.; Kuziv, I.Y.; Marinin, I.A.; Cheng, L.; Nie, G. (2022), Thermoresponsive Zinc TetraPhenylPorphyrin Photosensitizer/Dextran Graft Poly(N-IsoPropylAcrylAmide) Copolymer/Au Nanoparticles Hybrid Nanosystem: Potential for Photodynamic Therapy Applications,Nanomaterials,12(15) : link

Bliznyuk, V.N.; Kutsevol, V.N.; Kuziv, I.Y.; Husson, S.M.; DeVol, T.A. (2022), Efficient Retention and Alpha Spectroscopy of Actinides from Aqueous Solutions Using a Combination of Water-Soluble Star-like Polymers and Ultrafiltration Membranes,Polymers,14(17) : link


Chumachenko, V.; Kutsevol, N.; Harahuts, Y.; Rawiso, M.; Marinin, A.; Bulavin, L. (2017), Star-like dextran-graft-pnipam copolymers. Effect of internal molecular structure on the phase transition,Journal Of Molecular Liquids,235(Si) : 77-82 link

Naumenko, A.; Kutsevol, N.; Chumachenko, V.; Pashchenko, V.; Kutovyy, S.; Rawiso, M. (2017), SYNTHESIS AND CHARACTERIZATION OF CdS NANOPARTICLES OBTAINED IN STAR-LIKE DEXTRAN-GRAFT-POLYACRYLAMIDE MATRICES,Ukrainian Journal Of Physics,62(10) : 908-912 link


Schosseler, F.; Vallat, P.; Kutsevol, N.; Catala, J.-M.; Rawiso, M. (2016), Optical properties of conjugated hydrophobic weak polyelectrolytes: Effects of pH, temperature and ionic strength,Molecular Crystals And Liquid Crystals,639(1) : 2-18 link

Kutsevol, N.; Chumachenko, V.; Rawiso, M.; Shyichuk, A. (2016), Green synthesis of silver nanoparticles using dextran-graft-polyacrylamide as template,Micro & Nano Letters,11(5) : 256-259 link

Kutsevol, N.; Chumachenko, V.; Shkodich, V.; Temnikova, N.; Rawiso, M.; Solntsev, V. (2016), Green route synthesis of nanosilver into polyelectrolyte solutions at high pH value,Molecular Crystals And Liquid Crystals,640(1) : 90-97 link


Kutsevol, N.V.; Chumachenko, V.A.; Rawiso, M.; Shkodich, V.F.; Stoyanov, O.V. (2015), Star-like dextran-polyacrylamide polymers: Prospects of use in nanotechnologies,Journal Of Structural Chemistry,56(5) : 959-966 link


Chumachenko, V.; Kutsevol, N.; Rawiso, M.; Schmutz, M.; Blanck, C. (2014), In situ formation of silver nanoparticles in linear and branched polyelectrolyte matrices using various reducing agents,Nanoscale Research Letters,9() : link

Kutsevol, N.; Bezuglyi, M.; Bezugla, T.; Rawiso, M. (2014), Synthesis of Silver Nanoparticles in Star-Like Dextran-Graft-Polyacrylamide Matrices,Molecular Crystals And Liquid Crystals,590(1) : 179-185 link


Sushko, R.; Sarazin, D.; Rochas, C.; Kutsevol, N.; Guenet, J.-M. (2009), Anomalous behaviour of comb-like dextran-polyacrylamide copolymers in mixed solvents,European Polymer Journal,45(6) : 1698-1705 link


Kutsevol, N.; Guenet, J.M.; Melnik, N.; Sarazin, D.; Rochas, C. (2006), Solution properties of dextran-polyacrylamide graft copolymers,Polymer,47(6) : 2061-2068 link

Kutsevol, N.; Guenet, J.M.; Melnyk, N.; Sarazin, D. (2006), Water soluble dextran-polyacrylamide graft copolymers for capturing metal ions,Macromolecular Symposia,235() : 201-205 link


Kutsevol, N.; Guenet, J.M.; Melnik, N.; Rossi, C. (2005), Intramolecular polycomplexes formed by Dextran-grafted polyacrylamide: Effect of the components molecular weight,Macromolecular Symposia,222() : 219-224 link


Kutsevol, N.; Zheltonozhskaya, T.; Melnik, N.; Guenet, J.M.; Syromyatnikov, V. (2003), Conformational changes in poly(vinyl alcohol)-graft-polyacrylamide in aqueous solutions vs graft content,Macromolecular Symposia,203() : 201-206 link