Adsorption, Pulmonary surfactant, Surface tension, Drop and Rheology are his primary areas of study. His Adsorption study combines topics from a wide range of disciplines, such as Monolayer, Chromatography, Maximum bubble pressure method and Surface pressure. His studies in Pulmonary surfactant integrate themes in fields like Absorption and Molecule.
His work focuses on many connections between Surface tension and other disciplines, such as Sodium dodecyl sulfate, that overlap with his field of interest in Equation of state, Alkyl and Dimer. His Drop research focuses on subjects like Bubble, which are linked to Analytical chemistry and Emulsion. His Rheology study which covers Elasticity that intersects with Crystallography and Compressibility.
His primary areas of investigation include Adsorption, Surface tension, Pulmonary surfactant, Monolayer and Drop. Valentin B. Fainerman has included themes like Hexane, Chromatography, Rheology, Analytical chemistry and Aqueous solution in his Adsorption study. The Surface tension study combines topics in areas such as Micellar solutions, Micelle and Thermodynamic model.
His Pulmonary surfactant research incorporates themes from Inorganic chemistry, Cationic polymerization, Ionic bonding and Surface layer. Valentin B. Fainerman interconnects Phase transition, Physical chemistry, Molecule, Organic chemistry and Langmuir in the investigation of issues within Monolayer. His Drop research is multidisciplinary, incorporating elements of Human serum albumin and Ethylene oxide.
His scientific interests lie mostly in Adsorption, Monolayer, Pulmonary surfactant, Surface tension and Hexane. His work deals with themes such as Surface pressure, Rheology, Drop and Bubble, which intersect with Adsorption. The study incorporates disciplines such as Chemical physics, Monomer, Molecule, Alkyl and Amine gas treating in addition to Monolayer.
Valentin B. Fainerman merges many fields, such as Pulmonary surfactant and Interface, in his writings. Valentin B. Fainerman focuses mostly in the field of Surface tension, narrowing it down to topics relating to Aqueous solution and, in certain cases, Partition coefficient. His Hexane research is multidisciplinary, incorporating perspectives in Cationic polymerization and Analytical chemistry.
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Dynamic surface and interfacial tensions of surfactant and polymer solutions
Reinhard Miller;Paul Joos;Valentin B. Fainerman.
Advances in Colloid and Interface Science (1994)
Adsorption of surfactants and proteins at fluid interfaces
V.B Fainerman;E.H Lucassen-Reynders;R Miller.
Colloids and Surfaces A: Physicochemical and Engineering Aspects (1998)
Interfacial properties of pulmonary surfactant layers.
R. Wüstneck;J. Perez-Gil;N. Wüstneck;A. Cruz.
Advances in Colloid and Interface Science (2005)
Thermodynamics, adsorption kinetics and rheology of mixed protein-surfactant interfacial layers.
Cs. Kotsmar;V. Pradines;V.S. Alahverdjieva;E.V. Aksenenko.
Advances in Colloid and Interface Science (2009)
Equations of State for Langmuir Monolayers with Two-Dimensional Phase Transitions
V. B. Fainerman;D. Vollhardt.
Journal of Physical Chemistry B (1999)
Dynamic surface tension and adsorption properties of β-casein and β-lactoglobulin
R. Wustneck;J. Kragel;R. Miller;V.B. Fainerman.
Food Hydrocolloids (1996)
Dynamic surface tension and adsorption kinetics of beta-casein at the solution/air interface.
R. Miller;V. B. Fainerman;E. V. Aksenenko;M. E. Leser.
Adsorption of proteins at the liquid/air interface.
A. V. Makievski;V. B. Fainerman;M. Bree;R. Wüstneck.
Journal of Physical Chemistry B (1998)
Thermodynamic and textural characterization of DPPG phospholipid monolayers.
D. Vollhardt;V. B. Fainerman;Stefan Siegel.
Journal of Physical Chemistry B (2000)
Surface tension isotherms for surfactant adsorption layers including surface aggregation
V. B. Fainerman;R. Miller.
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