Publications

  1. Cretella, M.; Fazilati, M,; Krcic, N.; Argatov, I.; Kocherbitov, V. Determination of Density of Starch Hydrogel Microspheres from Sedimentation Experiments Using Non-Stokes Drag Coefficient. Gels, 2024. 10(4): p. 277. Full text
  2. Kocherbitov, V.; Music, D.; Veryazov, V. Hydrogen bonding in glassy trehalose–water system: Insights from density functional theory and molecular dynamics simulations. The Journal of Chemical Physics (2024), 160, 8, 084504. Full text
  3. Kelly, S. J.; Genevskiy, V.; Björklund, S.; Gonzalez-Martinez, J. F.; Poeschke, L.; Schröder, M.; Nilius, G.; Tatkov, S.; Kocherbitov, V. Water Sorption and Structural Properties of Human Airway Mucus in Health and Muco-Obstructive Diseases. Biomacromolecules (2024). DOI: 10.1021/acs.biomac.3c01170 Full text
  4. Engstedt, J.; Barauskas, J.; Kocherbitov, V. Phase behavior of soybean phosphatidylcholine and glycerol dioleate in hydrated and dehydrated states studied by small-angle X-ray scattering. Soft Matter (2023), 19, 8305-8317. Full text
  5. Argatov, I.; Krcic, N.; Kocherbitov, V. Sedimentation of a starch microsphere: What is usually missed and why? Heliyon (2023), 9, e20257. Full text
  6. Bogdanova, E.; Lages, S.; Phan-Xuan, T.; Kamal, A.; Terry, A.; Millqvist Fureby, A.; Kocherbitov, V. Lysozyme−Sucrose Interactions in the Solid State: Glass Transition, Denaturation, and the Effect of Residual Water. Mol. Pharmaceutics (2023), 20, 9, 4664–4675 Full text
  7. Tsompou, A.; Kocherbitov, V. Surface and bulk mechanisms in repeating treatment of solid surfaces by purified water. Heliyon 9 (2023) e17163. Full text
  8. Slaninova, E.; Obruca, S.; Kocherbitov, V.; Sedlacek, P. On the bioprotective effects of 3-hydroxybutyrate: Thermodynamic study of binary 3HB-water systems. Biophys. J. (2023). Full text
  9. Kocherbitov, V. A model for water sorption isotherms and hydration forces in sugar surfactants. J. Coll. Int. Sci. (2023), 633, 343-351 Full text
  10. Argatov, I.; Roosen-Runge, F.; Kocherbitov, V. Dynamics of post-occlusion water diffusion in stratum corneum. Scientific Reports (2022), 12, 17957. Full text
  11. Digaitis, R.; Falkman, P.; Oltner, V., Briggner L.-E.; Kocherbitov, V. Hydration and dehydration induced changes in porosity of starch microspheres. Caerbohydrate Polymers (2022), 291, 119542. Full text
  12. Argatov, I.; Engblom, J; Kocherbitov, V. Modeling of composite sorption isotherm for stratum corneum. BBA Biomembranes (2022), 1864, 183910. Full text
  13. Bogdanova, E.; Millqvist Fureby, A.; Kocherbitov, V. Influence of cooling rate on ice crystallization and melting in sucrose-water system. J.Pharm.Sci (2022), 111, 7 2030-2037. Full text
  14. Bogdanova, E.; Kocherbitov, V. Assessment of activation energy of enthalpy relaxation in sucrose-water system: effects of DSC cycle type and sample thermal history. J. Therm. Anal. Calorim. (2022). Full text
  15. Tsompou, A.; Kocherbitov, V. The effects of water purity on removal of hydrophobic substances from solid surfaces without surfactants. J. Coll. Int. Sci. (2022), 608, 1929-1941. Full text
  16. Phan-Xuan, T.; Bogdanova, E.; Sommertune, J.; Fureby, A.; Fransson, J.; Terry, A.; Kocherbitov, V. The role of water in the reversibility of thermal denaturation of lysozyme in solid and liquid states. Biochem. Biophys. Reports (2021), 28, 101184. Full text
  17. Kocherbitov, V.; Argatov, I. A thermodynamic theory of sorption in glassy polymers. Polymer (2021), 223, 124195. Full text
  18. Bogdanova, E; Millqvist Fureby, A.; Kocherbitov, V. Hydration enthalpies of amorphous sucrose, trehalose and maltodextrins and their relations to heat capacities. Phys. Chem. Chem. Phys. (2021), 23, 14433-14448. Full text
  19. Argatov, I.; Kocherbitov, V. An empirical model for sorption by glassy polymers: an assessment of thermodynamic parameters. Polymer Testing (2021), 99, 107220. Full text.  
  20. Lind, T.K.; Nilsson, E.J.; Wyler, B.; Scherer, D.; Skansberger, T.; Morin, M.; Kocherbitov, V.; Engblom, J. Effects of ethylene oxide chain length on crystallization of polysorbate 80 and its related compounds. J.Coll.Int.Sci (2021), 592, 468-484. Full text
  21. Kocherbitov, V. On the calculation of thermodynamic parameters in sorption calorimetric experiments.J. Chem. Thermodyn. (2021), 152, 106264. Full Text
  22. Argatov, I.; Kocherbitov, V. Analysis of the minimal model for the enthalpy relaxation and recovery in glass transition: Application to constant-rate differential scanning calorimetry. Continuum Mechanics and Thermodynamics (2021), 33, 107-123. Full text
  23. Phan-Xuan, T.; Bogdanova, E.; Fureby, A.; Fransson, J.; Terry, A.; Kocherbitov, V. Hydration induced structural changes in solid state of protein: a SAXS/WAXS study on lysozyme. Mol. Pharmaceutics (2020), 17, 9, 3246–3258. Full text
  24. Nilsson, E.J.; Lind, T.; Scherer, D.; Skansberger, T.; Mortensen, K.; Engblom, J.; Kocherbitov, V. Mechanisms of crystallisation in polysorbates and sorbitan esters. CrystEngComm (2020), 22, 3840–3853. Full Text
  25. Falk, Y.Z; Runnsjö, A.; Pettigrew, A.; Scherer, D.; Engblom, J.; Kocherbitov, V. Interactions of Perfluorohexyloctane with Polyethylene and Polypropylene Pharmaceutical Packaging Materials. Journal of Pharmaceutical Sciences (2020), 109, 2180-2188. Full-text
  26. Argatov, I.; Kocherbitov, V. A note on artificial neural network modeling of vapor-liquid equilibrium in multicomponent mixtures. Fluid Phase Equilibria (2019), 502, 112282, 1-8. Full-text
  27. Kocherbitov, V.; Argatov, I. Enthalpy of sorption by glassy polymers. Polymer (2019), 174, 33-37. Full-text
  28. Björklund, S.;  Kocherbitov, V. Water vapor sorption-desorption hysteresis in glassy surface films of mucins investigated by humidity scanning QCM-D. J. Colloid Interface Sci. (2019), 545, 289-300. Full-text
  29. Skansberger, T.; Kocherbitov, V. The reversible and irreversible phenomena in potato starch gelatinization. Starch-Stärke (2019), 1800233, 1-9. Full-text
  30. Znamenskaya Falk, Y.; Engblom, J.; Pedersen, J.S.; Arnebrant, T.; Kocherbitov, V. Effects of Hydration on Structure and Phase Behavior of Pig Gastric Mucin Elucidated by SAXS. J.Phys.Chem. B. (2018), 122, 7539–7546.  Full-text
  31. Björklund, S.;Kocherbitov, V. Alcohols react with MCM-41 at room temperature and chemically modify mesoporous silica. Scientific reports (2017), 7, Article number: 9960. Full-text
  32. Pulyalina, A.; Polotskaya, G.; Goikhman, M.; Podeshvo, I.; Chernitsa, B.; Kocherbitov, V.; Toikka, A. Novel approach to determination of sorption in pervaporation process: a case study of isopropanol dehydration by polyamidoimideurea membranes. Scientific Reports (2017), 7, Article number: 8415 Full-text
  33. Argatov, I.; Iantchenko, A.; Kocherbitov, V. How to define the storage and loss moduli for a rheologically nonlinear material?: A constructive review of nonlinear rheological measures. Continuum Mechanics and Thermodynamics (2017), 29,1375–1387Full-text
  34. Runnsjo, A.; Kocherbitov, V.; Graf, G; Pettigrew, A; Scherer, D; Mortensen, K; Engblom, J. Semifluorinated alkanes and alkanes: a phase study of the perfluorohexyloctane – tetradecane system. Journal of Chemical Thermodynamics (2017), 105, 352-361 Full-text
  35. Kocherbitov, V.; Söderman, O. Effect of Oligomerization of Counterions on Water Activity in Aqueous Cationic Surfactant Systems. J. Phys. Chem. B. (2016), 120, 6961−6968. Full-text
  36. Kocherbitov, V. The nature of nonfreezing water in carbohydrate polymers.  Carbohydrate Polymers (2016), 150, 353–358  Full-text
  37. Björklund, S.; Kocherbitov, V. Hydration-induced phase transitions in surfactant and lipid films. Langmuir (2016), 32, 5223–5232 Full-text
  38. Runnsjö, A.; Dabkowska, A.; Sparr, E.; Kocherbitov, V.; Arnebrant, T.; Engblom, J. Diffusion through Pig Gastric Mucin: Effect of Relative Humidity. PLOS ONE (2016), 11, (6): e0157596. Full-text
  39. Znamenskaya, Y.; Björklund, S.; Kocherbitov, V.; Alfredsson, V. Effect of hydration and dehydration on the properties of SBA-15 layer studied by humidity scanning QCM-D. Microporous and Mesoporous Materials (2016), 230, 58-65. Full-Text
  40. Wojtasz, J.; Carlstedt, J.; Fyhr, P.; Kocherbitov, V. Hydration and swelling of amorphous cross-linked starch microspheres. Carbohydrate Polymers (2016), 135, 225-233  Full-text
  41. Kocherbitov, V. Molecular dynamics simulations of liquid crystalline phases of dodecyltrimethylammonium chloride. J.Mol.Liq. (2015), 210, 74-81 Full-text
  42. Björklund, S. and Kocherbitov,V. Humidity scanning quartz crystal microbalance with dissipation monitoring setup for determination of sorption-desorption isotherms and rheological changes. Review of Scientific Instruments (2015), 86, 055105. Full-text
  43. Carlstedt, J.; Wojtasz, J.; Fyhr, P.; Kocherbitov, V. Understanding Starch Gelatinization: the Phase Diagram Approach. Carbohydrate Polymers (2015), 129, 62-69. Full-text.
  44. Albèr, C.; Engblom, J.; Falkman, P.; Kocherbitov, V. Hydration of Hyaluronan: Effects on Structural and Thermodynamic Properties. J. Phys. Chem. B. (2015), 119, 4211–4219. Full-text
  45. Carlstedt, J.; Wojtasz, J.; Fyhr, P.; Kocherbitov, V. Hydration and the phase diagram of acid hydrolyzed potato starch. Carbohydrate Polymers (2014), 112, 569–577. Full-Text
  46. Alber, C.; Buraczewska-Norin, I.; Kocherbitov, V.; Saleem, S.; Loden, M.; Engblom, J. Effects of water activity and low molecular weight humectants on skin permeability and hydration dynamics – a double-blind, randomized and controlled study. International Journal of Cosmetic Science (2014), 36 (5), 412-418. Full-text
  47. Fagerström, A.; Kocherbitov, V.; Westbye, P.; Bergstrom, K.; Arnebrant, T.; Engblom, J. Surfactant softening of plant leaf cuticle model wax – A Differential Scanning Calorimetry (DSC) and Quartz Crystal Microbalance with Dissipation (QCM-D) study. J. Colloid Interface Sci. (2014), 426, 22-30. Full-text
  48. Kocherbitov, V. Application of scanning methods to distinguish between entropy and enthalpy driven phase transitions. Current Opinion in Colloid & Interface Science (2013), 18, 510–516. Full-text
  49. Fagerström, A.; Kocherbitov, V.; Westbye, P.; Bergström, K.; Mamontova, V.; Engblom, J. Characterization of a plant leaf cuticle model wax, phase behaviour of model wax–water systems. Thermochim. Acta (2013), 571, 10, 42–52. Full-text
  50. Graf, G.; Kocherbitov, V. Determination of Sorption Isotherm and Rheological Properties of Lysozyme Using a High-Resolution Humidity Scanning QCM-D Technique. J.Phys.Chem.B. (2013), 117, 10017−10026.  Full-Text
  51. Kocherbitov, V.; Latynis, J.; Misiunas, A.; Barauskas, J.; Niaura, G. Hydration of Lysozyme Studied by Raman Spectroscopy. J.Phys.Chem.B. (2013), 117 (17), 4981–4992. Full-text
  52. Znamenskaya, Y.; Sotres, J.; Gavryushov, S.; Engblom, J.; Arnebrant, T.; Kocherbitov, V. Water Sorption and Glass Transition of Pig Gastric Mucin Studied by QCM-D. J. Phys. Chem. B. (2013), 117, 2554−2563 Full-text
  53. Fagerström, A.; Kocherbitov, V.; Ruzgas, T.; Westbye, P.; Bergström, K.; Engblom, J. Effects of Surfactants and Thermodynamic Activity of Model Active Ingredient on Transport over Plant Leaf Cuticle. Colloids and Surfaces B: Biointerfaces (2013), 103, 572– 579.  Full-text
  54. Znamenskaya, Y.; Sotres, J.; Engblom, J.; Arnebrant, T.; Kocherbitov, V. Effect of Hydration on Structural and Thermodynamic Properties of Pig Gastric and Bovine Submaxillary Gland Mucins. J. Phys. Chem. B. (2012), 116, 5047–5055. Full-text
  55. Reichhardt, N.; Nylander, T.; Klösgen, B.; Alfredsson, V.; Kocherbitov, V. Porosity and surface properties of SBA-15 with grafted PNIPAAM: A water sorption calorimetry study. Langmuir (2011), 27, 13838–13846. Full-text
  56. Penkova, A.; Polotskaya, G.; Toikka, A.; Kocherbitov, V. Effect of residual solvent on physico-chemical properties of poly(phenylene isophtalamide) membrane. Drying Technology (2011), 29, 633-641. Full-text
  57. Kocherbitov, V.; Alfredsson, V. Assessment of Porosities of SBA-15 and MCM-41 Using Water Sorption Calorimetry. Langmuir (2011), 27, 3889-3897. Full-text
  58. Kocherbitov, V.; Ulvenlund, S.; Briggner, L-E.; Kober, M.; Arnebrant, T. Hydration of a natural polyelectrolyte xanthan gum: Comparison with non-ionic carbohydrates. Carbohydrate Polymers (2010), 82, 284-290. Full-text
  59. Kocherbitov, V.; Arnebrant, T. Hydration of lysozyme: the protein-protein interface and the enthalpy-entropy compensation. Langmuir (2010), 26(6), 3918-3922. Full-text
  60. Kocherbitov, V. Properties of water confined in an amphiphilic nanopore. J. Phys. Chem. C. (2008), 112 (43), 16893–16897. Full-text
  61. Kocherbitov, V.; Ulvenlund, S.; Kober, M.; Jarring, K.; Arnebrant, T. Hydration of microcrystalline cellulose and milled cellulose studied by sorption calorimetry.  J. Phys. Chem. B. (2008), 112 (12), 3728-3734. Full-text
  62. Silva, C.L.; Topgaard, D.; Kocherbitov, V.; Sousa, J.J.S.; Pais, A.A.C.C.; Sparr, E. Stratum corneum hydration: Phase transformations and mobility in stratum corneum, extracted lipids and isolated corneocytes. Biochim. Biophys. Acta (2007), 1768,  2647–2659.Full-text
  63. Kocherbitov, V.; Alfredsson, V. Hydration of MCM-41 Studied by Sorption Calorimetry. J. Phys. Chem. C. (2007), 111 (35), 12906-12913. Full-text
  64. Kocherbitov, V.; Veryazov, V.; Söderman, O. Hydration of Trimethylamine-N-oxide and of Dimethyldodecylamine-N-oxide: An Ab Initio study. J. Molec. Struct.: Theochem. (2007), 808, 111-118. Full Text
  65. Kocherbitov, V., Söderman, O. Hydration of Dimethyldodecylamine-N-Oxide:
    Enthalpy and Entropy Driven Processes. J.Phys.Chem.B. (2006), 110, 13649-13655.   Full-text
  66. Kocherbitov, V.; Arnebrant, T. Hydration of Thermally Denatured Lysozyme Studied by Sorption Calorimetry and Differential Scanning Calorimetry. J. Phys. Chem. B. (2006), 110, 10144-10150.   Full-text
  67. Ericsson, C.; Ericsson, L.; Kocherbitov, V.; Söderman, O.; Ulvenlund, S.
    Thermotropic phase behaviour of long-chain alkylmaltosides. Phys.Chem.Chem.Phys. (2005), 7, 2970–2977. Full-text
  68. Kocherbitov, V. Driving forces of phase transitions in surfactant and lipid systems. J. Phys. Chem. B. (2005), 109, 6430-6435.  Full-text
  69. Kocherbitov, V.; Arnebrant, T.; Soderman, O. Lysozyme-Water Interactions Studied by Sorption Calorimetry. J. Phys. Chem. B.(2004), 108 (49), 19036 – 19042.  Full-text 
  70. Sparr, E.; Wadsten, P.; Kocherbitov, V.; Engström, S. The effect of bacteriorhodopsin, detergent and hydration on the cubic-to-lamellar phase transition in the monoolein–distearoyl phosphatidyl glycerol–water system. Biochim. Biophys. Acta(2004), 1665, 156–166. Full-text
  71. Kocherbitov, V. Salt – saturated salt solution as a standard system for sorption calorimetry. Thermochim. Acta (2004), 421(1-2), 105-110. Full-text
  72. Kocherbitov, V.; Söderman, O. Glassy Crystalline State and Water Sorption of Alkyl Maltosides. Langmuir (2004), 20, 3056-3061. Full-text
  73. Kocherbitov, V. A new formula for accurate calculation of water activity in sorption calorimetric experiments. Thermochim. Acta (2004), 414(1), 43-45.
  74. Kocherbitov, V.; Wadsö, L. A desorption calorimetric method for use at high water activities. Thermochim. Acta (2004), 411 (1), 31-36. Full-text
  75. Kocherbitov, V.; Söderman, O. Phase diagram and physicochemical properties of the n-octyl alpha-D-glucoside/water system. Phys. Chem. Chem. Phys. (2003), 5 (23), 5262-5270. Full-text
  76. Kocherbitov, V.; Söderman, O.; Wadsö, L. Phase Diagram and Thermodynamics of the n-Octyl beta-D-Glucoside/Water System. J. Phys. Chem. B. (2002), 106 (11): 2910-2917. Full-text
  77. Kocherbitov, V.V. Concentrations of components as composition variables in the chemically reactive systems. Vestn. S.-Peterb. Univ., Ser. 4: Fiz., Khim. (2001), 1, N4, 38-45
  78. Wadsö, L.; Kocherbitov, V. A new diffusion controlled calibration and test device for microcalorimeters. Proc. Workshop Microcalorim. Energ. Mater., 2nd (1999), P1-P8.
  79. Kocherbitov, V. V.; Toikka, A. M. Liquid-vapor and liquid-liquid equilibria in the acetic acid – n-propanol -n-propyl acetate-water system at 313.15 K. Zh. Prikl. Khim. (S.-Peterburg) (1999), 72(10), 1615-1617.
    • Kocherbitov, V. V.; Toikka, A. M. Liquid-Vapor and Liquid-Liquid Phase Equilibria in the System Acetic Acid-n-Propanol-Water-n-Propyl Acetate at 313.15 K. Russian Journal of Applied Chemistry. 1999, Vol.72 Issue.10, 1706-1708.
  80. Kocherbitov, V. V.; Toikka, A. M. On the structure of the diagrams of ternary liquid-liquid systems in chemically nonequilibrium states. Vestn. S.-Peterb. Univ., Ser. 4: Fiz., Khim. (1998), (3), 120-124.
  81. Toikka, A. M.; Kocherbitov, V. V.; Rezanova, E. N. Thermodynamic calculation of the limiting Gibbs energy values for ternary systems from binary subsystem data. Zh. Prikl. Khim. (S.-Peterburg) (1998), 71(3), 362-365
  82. Toikka, A. M.; Kocherbitov, V. V.; Lobacheva, O. L. Calculation of the parameters of metastable states and spinodal parameters in multicomponent liquid phase systems. Vestn. S.-Peterb. Univ., Ser. 4: Fiz., Khim. (1997), (3), 51-55
  83. Kocherbitov, V. V.; Toikka, A. M. Liquid-vapor equilibrium in the acetic acid-n-propyl alcohol-water system at 313.15 K. Zh. Prikl. Khim. (S.-Peterburg) (1997), 70(11), 1777-1781.
  84. Toikka, A. M.; Rezanova, E. N.; Kocherbitov, V. V.. Stability conditions as the basis for thermodynamic prediction of vapor-liquid equilibrium data in multicomponent mixtures from data for the constituent mixtures. Inst. Chem. Eng. Symp. Ser. (1997), 142(Distillation and Absorption ’97, Vol. 1), 175-185.
  85. Toikka, A. M.; Gorban, Yu. P.; Ivanova, Zh. V.; Kocherbitov, V. V.. Liquid-vapor, liquid-liquid, and liquid-liquid-vapor phase equilibriums in the water-acetic acid-propyl acetate system at 313.15 K. Zh. Prikl. Khim. (S.-Peterburg) (1997), 70(1), 44-46.
  86. Kocherbitov, V. V.; Toikka, A. M. Thermodynamic calculation of threshold boiling points of multicomponent solutions from subsystem data. Zh. Prikl. Khim. (S.-Peterburg) (1995), 68(8),
  87. Toikka, A. M.; Kocherbitov, V. V.. Thermodynamic verification of equilibrium parameters of four-component liq.-vapor systems according to isothermal data on subsystems. Zh. Prikl. Khim. (S.-Peterburg) (1995), 68(6), 914-17
  88. Kocherbitov, V. V.; Toikka, A. M. Evaluation of equilibrium parameters of solution-nonideal vapor systems using thermodynamic inequalities. Zh. Prikl. Khim. (S.-Peterburg) (1994), 67(8), 1233-7.