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5 Lavrentiev Ave., 630090, Novosibirsk, Russia


Key Publications

All publications of the BIC researchers are here:
SciAct. CRIS-system of Boreskov Institute of Catalysis


  1. Yu.I. Aristov, L.G. Gordeeva, М.М. Tokarev, Composite sorbents “salt in porous matrix”: synthesis, properties, applications, Novosibirsk, SB RAS, 2008, 362p. - monography.
  2. A. Sapienza, A. Frazzica, A. Freni, Yu.I. Aristov, Dynamics of Adsorptive Systems for Heat Transformation, Springer, Cham, 98 p., 2018, ISBN-978-3-319-51285-3, doi: 10.1007/978-3-319-51287-7 – monography.
  3. Yu.I. Aristov, G. Restuccia, G. Cacciola, V.N. Parmon, A family of new working materials for solid sorption air conditioning systems, Appl. Therm. Engn., 2002, v. 22, pp. 191-204.
  4. M. Tokarev, L. Gordeeva, V. Romannikov, I. Glaznev, Yu. Aristov, New composite sorbent «CaCl2 in mesopores of МСМ-41» for sorption cooling/heating, Int. J. Thermal Science, 2002, v. 41, pp. 470-474.
  5. Yu.I. Aristov, M.M. Tokarev, A. Freni, I.S. Glaznev, G. Restuccia, Kinetics of water adsorption on silica Fuji Davison RD, Microporous & Mesoporous Materials, 2006, v. 96, N 1-3, pp. 65-71.
  6. Yu.I. Aristov, I.V. Mezentsev, V.A. Mukhin, A new approach to regenerating heat and moisture in ventilation systems, Energy and Buildings, 2008, v. 40, pp. 204–208.
  7. B.B. Saha, A. Chakraborty, S. Koyama, Yu.I. Aristov, A new generation cooling device employing CaCl2-in-silica gel-water system, Int. J. Heat&Mass Transfer, 2009, v. 52, N 1-2, pp. 516-524.
  8. L.G. Gordeeva, Yu.I. Aristov, Composites “salt inside porous matrix” for adsorption heat transformation: a current state of the art and new trends. Int. J. Low Carbon Technol., 2012, 7(4): 288-302.
  9. Yu.I. Aristov, Challenging offers of material science for adsorption heat transformation: a review, Appl. Therm. Engn., 2013, v. 50, N 2, pp. 1610-1618.
  10. S.K. Henninger, S.-J. Ernst, L.G. Gordeeva, A.D. Grekova, L. Bonaccorsi, P. Schossig, Yu.I. Aristov, J. Jaenchen, New materials for adsorption heat transformation and storage, Ren. Energy, 2017, v. 110, pp. 59-68.
  11. Yu.I. Aristov, Adsorptive transformation of ambient heat: a new cycle, Appl. Therm. Engn., 2017, v. 124, pp. 521-524.
  12. M.M. Tokarev, L.G. Gordeeva, A.D. Grekova, Yu.I. Aristov. A new cycle "Heat from Cold" for upgrading the ambient heat: the testing a lab-scale prototype with the composite sorbent CaClBr/silica. Applied Energy. 211 (2018) 136-145.
  13. M.M. Tokarev, L.G. Gordeeva, Yu.I. Aristov, Testing the lab-scale "Heat from Cold" prototype with the "LiCl/silica – methanol" working pair. Energy Conversion and Management. 159 (2018) pp. 213-220.
  14. L.G. Gordeeva, Yu.I. Aristov, Adsorptive heat storage/ amplification: new cycles and adsorbents, Energy, 2019, v. 167, pp. 440-453.
  15. M.V. Solovyeva, L.G. Gordeeva, Yu.I. Aristov, "MIL-101(Cr) - methanol" as working pair for adsorption heat transformation cycles: adsorbent shaping, adsorption equilibrium and dynamics, Energy Conv. Manag., 2019, v. 182, pp. 299-306.
  16. A.I. Shkatulov, S.T. Kim, H. Miura, Y. Kato, Yu.I. Aristov, Adapting the MgO-CO2 working pair for thermochemical energy storage by doping with salts, Energy Conv. Management, 2019 (just accepted).



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