1.) M Dükkancı, G Gündüz, S Yılmaz, RV Prihod’Ko.Heterogeneous Fenton-like degradation of Rhodamine 6G in water using CuFeZSM-5 zeolite catalyst prepared by hydrothermal synthesis.Journal of hazardous materials 181 (1-3), 343-350.
2.) RV Prihod'ko, NM Soboleva. Photocatalysis: Oxidative processes in water treatment Journal of Chemistry 2013
3.) R Prihod’ko, I Stolyarova, G Gündüz, O Taran, S Yashnik, V Parmon,.Fe-exchanged zeolites as materials for catalytic wet peroxide oxidation. Degradation of Rodamine G dye. Applied Catalysis B: Environmental 104 (1-2), 201-210.
4.) OP Taran, SA Yashnik, AB Ayusheev, AS Piskun, RV Prihod’ko,.Cu-containing MFI zeolites as catalysts for wet peroxide oxidation of formic acid as model organic contaminant. Applied Catalysis B: Environmental 140, 506-515.
5.) M Sychev, R Prihod'Ko, K Erdmann, A Mangel, RA Van Santen. Hydrotalcites: relation between structural features, basicity and activity in the Wittig reaction. Applied clay science 18 (1-2), 103-110.
6.) OP Taran, AN Zagoruiko, AB Ayusheev, SA Yashnik, RV Prihod’ko,. Wet peroxide oxidation of phenol over Cu-ZSM-5 catalyst in a flow reactor. Kinetics and diffusion study. Chemical Engineering Journal 282, 108-115
7.) R Prihod’ko, M Sychev, I Kolomitsyn, PJ Stobbelaar, EJM Hensen,. Layered double hydroxides as catalysts for aromatic nitrile hydrolysis. Microporous and mesoporous materials 56 (3), 241-255
8.) M Sychev, R Prihod'ko, A Stepanenko, M Rozwadowski, RA van Santen. Characterisation of the microporosity of chromia-and titania-pillared montmorillonites differing in pillar density: II. Adsorption of benzene and water. Microporous and mesoporous materials 47 (2-3), 311-321
9.) R Prihod'ko, EJM Hensen, M Sychev, I Stolyarova, TE Shubina, I Astrelin,. Physicochemical and catalytic characterization of non-hydrothermally synthesized Mg-, Ni-and Mg–Ni-saponite-like materials. Microporous and mesoporous materials 69 (1-2), 49-63
10.) VVG I. V. Stolyarova, I. B. Kovban, R. V. Prikhod'ko, A. O. Kushko, M. V. Sychev. Relationship between the catalytic behavior of FeZSM-5 zeolites in oxidative degradation of dyes and the nature of their active centers. Russian Journal of Applied Chemistry 80 (5), 746–753