Victor A. Kabanov mainly investigates Polymer chemistry, Polyelectrolyte, Aqueous solution, Copolymer and Cationic polymerization. His Polymer chemistry study integrates concerns from other disciplines, such as Ionic strength, Macromolecule, Micelle, Bromide and Ethylene oxide. The subject of his Polyelectrolyte research is within the realm of Organic chemistry.
His Aqueous solution research is multidisciplinary, incorporating elements of Quenching, Methacrylate, Pulmonary surfactant, Bovine serum albumin and Self-healing hydrogels. His work in Copolymer addresses subjects such as Monomer, which are connected to disciplines such as Inorganic chemistry, Intrinsic viscosity, Sedimentation coefficient, Molar mass distribution and Pyridine. The Cationic polymerization study combines topics in areas such as Kinetic chain length, Bulk polymerization, Radical polymerization, Chain-growth polymerization and Chain transfer.
Polymer chemistry, Polyelectrolyte, Polymerization, Aqueous solution and Copolymer are his primary areas of study. A large part of his Polymer chemistry studies is devoted to Cationic polymerization. His Polyelectrolyte study incorporates themes from Salt, Ionic strength, Micelle and Stoichiometry.
His biological study deals with issues like Pulmonary surfactant, which deal with fields such as Ionomer. Victor A. Kabanov studied Polymerization and Photochemistry that intersect with Radical. His work deals with themes such as Inorganic chemistry, Bromide, Ionic bonding and Sorption, which intersect with Aqueous solution.
Victor A. Kabanov focuses on Polymer chemistry, Polyelectrolyte, Aqueous solution, Cationic polymerization and Micelle. His Polymer chemistry research integrates issues from Copolymer, Ionomer, Polymerization, Bromide and Pulmonary surfactant. His Polyelectrolyte research incorporates elements of Ionic strength, Acrylic acid, Sorption, Ionic bonding and Self-healing hydrogels.
His Aqueous solution research includes themes of Salt and Dodecyl sulfate. His biological study spans a wide range of topics, including Protein secondary structure, Crystallography, Vesicle, Degree of polymerization and Adsorption. His Micelle study combines topics from a wide range of disciplines, such as Methacrylic acid, Phase and Dynamic light scattering.
Victor A. Kabanov focuses on Polymer chemistry, Polyelectrolyte, Ionomer, Micelle and Cationic polymerization. The study incorporates disciplines such as Copolymer, Carboxylate, Bromide, Pulmonary surfactant and Aqueous solution in addition to Polymer chemistry. His Copolymer research includes elements of Oxide and Sorption.
His Polyelectrolyte study improves the overall literature in Organic chemistry. As part of the same scientific family, he usually focuses on Ionomer, concentrating on Ethylene oxide and intersecting with Ion, Dehydration, Hofmeister series, Dispersion and Salt. His Micelle research incorporates themes from Turbidimetry, Degree of polymerization, Methacrylic acid, Poly and Thermodynamic equilibrium.
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DNA complexes with polycations for the delivery of genetic material into cells.
A. V. Kabanov;V. A. Kabanov.
Bioconjugate Chemistry (1995)
Micelle formation and solubilization of fluorescent probes in poly(oxyethylene-b-oxypropylene-b-oxyethylene) solutions
Alexander V. Kabanov;Irina R. Nazarova;Irina V. Astafieva;Elena V. Batrakova.
Soluble Stoichiometric Complexes from Poly(N-ethyl-4-vinylpyridinium) Cations and Poly(ethylene oxide)-block-polymethacrylate Anions
Alexander Victorovich Kabanov;Tatiana K. Bronich;Victor A. Kabanov;Kui Yu.
Interpolyelectrolyte and block ionomer complexes for gene delivery: physico-chemical aspects.
Alexander Victorovich Kabanov;Victor A. Kabanov.
Advanced Drug Delivery Reviews (1998)
A new class of drug carriers: micelles of poly(oxyethylene)-poly(oxypropylene) block copolymers as microcontainers for drug targeting from blood in brain☆
Alexander V. Kabanov;Elena V. Batrakova;Nikolai S. Melik-Nubarov;Nikolai A. Fedoseev.
Journal of Controlled Release (1992)
The neuroleptic activity of haloperidol increases after its solubilization in surfactant micelles: Micelles as microcontainers for drug targeting
A.V. Kabanov;V.P. Chekhonin;V.Yu. Alakhov;E.V. Batrakova.
FEBS Letters (1989)
Spontaneous Formation of Vesicles from Complexes of Block Ionomers and Surfactants
A. V. Kabanov;T. K. Bronich;V. A. Kabanov;K. Yu.
Journal of the American Chemical Society (1998)
Soluble interpolymeric complexes as a new class of synthetic polyelectrolytes
V. A. Kabanov;A. B. Zezin.
Pure and Applied Chemistry (1984)
Soluble complexes from poly(ethylene oxide)-block-polymethacrylate anions and N-alkylpyridinium cations
Tatiana K. Bronich;Alexander Victorovich Kabanov;Victor A. Kabanov;Kui Yu.
Interpolyelectrolyte Complexes Formed by DNA and Astramol Poly(propylene imine) Dendrimers
V. A. Kabanov;V. G. Sergeyev;O. A. Pyshkina;A. A. Zinchenko.
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