Section 1. General problems of chemical thermodynamics

  • Methodological problems and new methods of phenomenological and statistical thermodynamics of reversible and irreversible processes;
  • Systematization and standardization of thermodynamic data, databases;
  • Teaching chemical thermodynamics;
  • Numerical methods, thermodynamic and molecular modeling;
  • Development of experimental techniques.


Section 2. Thermodynamics of individual chemical compounds

  • Thermodynamic properties of individual substances;
  • Phase equilibrium, critical phenomena;
  • Theoretical calculations and correlation estimations and thermodynamic magnitudes;
  • Thermodynamics of macromolecular and supramolecular compounds.


Section 3. Thermodynamics of solutions and heterogeneous systems

  • Experimental and theoretical investigations of thermodynamic properties of solutions and alloys;
  • Thermodynamic approaches in the plotting of phase diagrams;
  • Behavior of supercritical fluids; Self-organization in solutions;
  • Thermodynamics of biochemical systems.


Section 4. Thermodynamics of the surface phenomena and self-organization phenomena in the fluid systems

  • Thermodynamics of colloidal, polymeric, membrane and liquid crystal systems, mono- and multimolecular thin films;
  • Thermodynamics of surface phenomena and phase transitions in interfacial interactions in heterogeneous systems.


Section 5. Applied aspects of chemical thermodynamics

  • Modeling and improvement of technological processes (including process of obtaining new nanomaterials) using modern methods and approaches of chemical thermodynamics;
  • Thermodynamic analysis of chemical reactions in the technology production of inorganic and organic substances.


Round table

Thermodynamics of nanosystems.