Voir la notice de l'article provenant de la source Math-Net.Ru
[1] Gachok V. P., Arinbasarova A. Yu., Koscheenko K. A. i dr., “Kineticheskaya model 1-en degidrirovaniya gidrokortizona kletkami Arthrobacter globiformis”, Prikladnaya biokhimiya i mikrobiologiya, 24:3 (1988), 380–388
[2] Gachok V. P., Arinbasarova A. Yu., Gritsai V. I. i dr., “Kineticheskaya model redoks reaktsii v protsesse transformatsii steroidov kletkami Arthrobacter globiformis”, Prikladnaya biokhimiya i mikrobiologiya, 24:3 (1988), 389–399
[3] Gachok V. P., Grytsay V. I., Arinbasarova A. Yu. et al., “Kinetic Model of Hydrocortizone 1-en Dehydrogenation by Arthrobacter globiformis”, Biotechnology and Bioengineering, 33 (1989), 661–667 | DOI
[4] Gachok V. P., Grytsay V. I., Arinbasarova A. Yu. et al., “Kinetic Model for the Regulation of Redox Reactions in Steroid Transformation by Arthrobacter globiformis Cells”, Biotechnology and Bioengineering, 33 (1989), 668–680 | DOI
[5] Gachok V. P., Gritsai V. I., “Kineticheskaya model makroporistoi granuly s regulyatsiyami biokhimicheskikh protsessov”, Dokl. AN SSSR, 282:1 (1985), 51–53 | MR
[6] Gritsai V. I., Gachok V. P., Prilutskii Yu. I. i dr., “Uporyadochennye i khaoticheskie struktury v matematicheskoi modeli biosensora s fulerenovymi chastitsami”, Tez. IV Mezhdunarodnoi konferentsii “Matematicheskie modeli nelineinykh vozbuzhdenii, perenosa, dinamiki upravleniya v kondensirovanykh sistemakh i drugikh sredakh”, Izd. “Stankin”, M., 2000
[7] Gritsai V. I., “Samoorganizatsiya v makroporistoi strukture gelya s immobilizovannymi kletkami. Kineticheskaya model bioselektivnoi membrany biosensora”, Dopovidi NAN Ukrainy, 2000, no. 2, 175–179
[8] Gritsai V. I., “Samoorganizatsiya v reaktsionno-diffuzionnoi poristoi srede”, Dopovidi NAN Ukrainy, 2000, no. 3, 201–206
[9] Gritsai V. I., “Uporyadochennye struktury v matematicheskoi modeli biosensora”, Dopovidi NAN Ukrainy, 2000, no. 11, 112–116
[10] Grytsay V. I., Gachok V. P., Prylutskyy Yu. I. et al., “Modeling of the Biochemical Processes in the Bioselective Membrane of Biosensor Using the Colloidal Fullerene Particles”, EUROCARBON 2000, 1-st World Conference on Carbon (Germany, Berlin, 2000), 969–970
[11] Gritsai V. I., “Samoorganizatsiya biokhimichnogo protsesu imobilizovanikh klitin bioselektivnoї membrani biosensora”, Ukrainskii fizicheskii zhurnal, 2001, no. 1, 124–127
[12] Gritsai V. I., “Uporyadochennye i khaoticheskie struktury v reaktsionno-diffuzionnoi srede”, Vestnik Kievskogo universiteta, 2002, no. 2, 394–400
[13] Andreev A. A., Gritsai V. I., “Issledovanie nestatsionarnykh rezhimov geterogennykh kataliticheskikh protsessov”, Vestnik Chuvashskogo universiteta, 2002, no. 2, 43–53 | Zbl
[14] Andreev A. A., Gritsai V. I., “Modelirovanie neaktivnykh zon v poristykh granulakh katalizatora i v biosensore”, Matem. modelirovanie, 17:2 (2005), 57–64 | Zbl