Recent Articles

E.B. Postnikov, A.A. Khalin, A.I. Lavrova, O.A. Manicheva. Resazurin Assay Data for Mycobacterium tuberculosis Supporting a Model of the Growth Accelerated by a Stochastic Non-Homogeneity. Data. 2019. V. 4:36

E.B. Postnikov, Y.V. Nedyalkov, I. Polishuk. Improved Approximation for DIPPR-Based Predicting Speed of Sound in Long-Chained n-Alkanes. Archives of Acoustics. 2018. V. 43. P. 537-541.

B. Jasiok, A.R. Lowe, E.B. Postnikov, J. Feder-Kubis, M. Chorążewski, High-Pressure Densities of Industrial Lubricants and Complex Oils Predicted by the Fluctuation Theory-Based Equation of State. Industrial & Engineering Chemistry Research.2018. V. 57. P. 11797-11803

A.A. Khalin, E.B.Postnikov, A.B. Ryabov. Stochastic effects in mean-field population growth: The quasi-Gaussian approximation to the case of a Taylor’s law-distributed substrate. Physica A. 2018. V. 511. P. 166-173.

V.V. Melent’ev, E.B. Postnikov, I. Polishuk, Experimental Determination and Modeling Thermophysical Properties of 1-Chlorononane in a Wide Range of Conditions: Is It Possible To Predict a Contribution of Chlorine Atom? Industrial & Engineering Chemistry Research. 2018. V. 57. P. 5142–5150.

Yu.A. Neruchev, A.K. Radchenko, The Speed of Sound in the Liquid Phase of Hexane Isomers. High Temperature. 2018. V. 56. P. 2018

B. Jasiok, E.B. Postnikov, M. Chorążewski. The prediction of high-pressure densities of different fuels using fluctuation theory-based Tait-like equation of state. Fuel. 2018. . V. 219. P. 176-181

V.V. Melent’ev, E.B. Postnikov. Speed of Sound and Density of 1-Chloropropane in the Range of Temperatures 180–373 K and Pressures up to 196.1 MPa. Journal of Chememical & Engineering  Data. 2017. V. 62. P. 3409–3413.

D.V. Verveyko, A.Yu. Verisokin, E.B. Postnikov. Mathematical model of chaotic oscillations and oscillatory entrainment in glycolysis originated from periodic substrate supply. Chaos. 2017. V. 27: 083104

M. Chorążewski, E.B. Postnikov, B. Jasiok, Y.V. Nedyalkov, Jacquemin. A Fluctuation Equation of State for Prediction of High-Pressure Densities of Ionic Liquids. Scientific Reports. 2017. V. 7: 5563.