1. Baykov A. A. Sobranie trudov. Collection of transactions. Moscow, 1948.
2. Geld P. V., Esin O. A. Protsessy vysokotemperaturnogo vosstanovleniya. Processes of high-temperature reduction. Sverdlovsk, 1957.
3. Rostovtsev S. T. Teoriya metallurgicheskikh protsessov. Theory of metallurgical processes. Moscow, 1956.
4. Chufarov G. I., Tatievskaya E. P. Adsorbtsionno-kineticheskaya teoriya vosstanovleniya oksidov metallov. Adsorption kinetic theory of the metal oxides reduction. Moscow, 1953.
5. Chufarov G. I., Zhuravleva M. G., Balakirev V. F. Sostoyanie teorii vosstanovleniya metallov. State of metals reduction theory. Moscow, 1970.
6. Chufarov G. I., Men A. N., Balakirev V. F. Termodinamika protsessov vosstanovleniya oksidov metallov. Thermodynamics of metal oxides reduction processes. Moscow, 1970.
7. Vorontsov E. P. Issledovanie mekhanizma, kinetiki i kataliza reaktsii vosstanovleniya. Study of mechanism, kinetics and catalysis of the reduction reaction. Chelyabinsk, 1970.
8. Bondarenko B. I. Vosstanovlenie okislov metallov v slozhnykh gazovykh sistemakh. Metal oxides reduction in the complicated gas systems. Kiev, 1980.
9. Lyumkis P. E., Chermak L. L., Kagan A. P. Puti povysheniya aktivnosti nikelevogo poroshka. Ways of the nickel powder activity rising. Byul. TsNIItsvetmeta. Bulletin of the Central Research Institute of non-ferrous metals. 1960. No. 11.
10. Sukhov M. N., Bryndin V. G., Svechnikov G. P. Razrabotka protsessov i apparatov dlya vosstanovleniya zakisi nikelya v kipyashchem sloe. Development of processes and instruments for nickel protoxide reduction in the fluidized bed. Norilsk, 1963.
11. Izerbakh Yu. F., Sidak N. A. Proizvodstvo gazovogo nikelevogo poroshka vysokoy aktivnosti. Production of the high-activity gas nickel powder. Norilsk, 1965.
12. Lapin Yu. D., Sukhov M. N. Vosstanovlenie zakisi nikelya generatornym gazom v kipyashchem sloe. Nickel protoxide reduction in the fluidized bed by the producer gas. Moscow, 1965.
13. Shamro E. A., Vyazmikin O. A., Evlanov P. F. Kinetika protsessa gazovogo vosstanovleniya promyshlennoy zakisi nikelya v kipyashchem sloe. Kinetics of the nickel protoxide reduction in the fluidized bed process. Tsvetnye metally. Non-ferrous metals. 1970. No. 12.
14. Astafev A. F., Denisov Yu. P. Polupromyshlennye ispytaniya vosstanovleniya zakisi nikelya zhidkim toplivom v kipyashchem sloe. Semiindustrial testing of the nickel protoxide reduction in the fluidized bed by the liquid fuel. Tam zhe. Ibid. 1980. No. 6.
15. Astaf'ev A. F., Esipenko B. P. Opytno-promyshlennye ispytaniya vosstanovleniya zakisi nikelya zhidkim toplivom. Pilot testing of the nickel protoxide reduction by the liquid fuel. Tam zhe. Ibid.. No. 12.
16. Tatosyan E. K., Bryukvin V. A., Vinetskaya T. N. Otsenka aktivnosti nikelevykh poroshkov. Estimation of the nickel powders activity. Tam zhe. Ibid. 1993. No. 5.
17. Danilov M. P., Gladkov A. P., Nazmutdinov Sh. G. and etc. Poluchenie aktivnogo nikelevogo poroshka v trubchatoy pechi. Obtainment of active nickel powder in tube furnace. Tam zhe. Ibid. 1998. No. 10/11.
18. Tolstykh A. N., Miroevskiy G. P., Popov I. O. and etc. Zhurn. prikl. khimii. Journal of applied chemistry. 2000. Vol. 73, Issue 11. pp. 1781–1785.
19. Tolstykh A. N., Miroevskiy G. P., Seregin P. P. Nekotorye zakonomernosti vosstanovleniya zakisi nikelya tverdymi i zhidkimi vosstanovitelyami. Some regularities of the nickel protoxide reduction by the solid and liquid reducing agents. Tsvetnye metally. Non-ferrous metals. 2001. No. 2.
20. Seregin P. P., Tolstykh A. N., Tsemekhman L. Sh. Sovershenstvovanie tekhnologii vosstanovleniya nikelevogo ogarka v trubchatykh pechakh kombinata «Severonikel». Perfecting of the nickel cinder reduction technology in the tube furnaces of the «Severonickel Combine». Tam zhe. Ibid. 2002. No. 12.
21. Seregin P. P., Besedovskiy P. G. Issledovanie vliyaniya rezhimov obzhiga i vosstanovleniya na sostoyanie poverkhnosti chastits ogarka i nikelevogo poroshka. Study of the roasting and reduction conditions influence on the cinder and nickel powder surface state. Tam zhe. Ibid. 2004. No. 12.
22. Seregin P. P. Vyboreffektivnogo tverdogo vosstanovitelya dlya trubchatykh pechey. Selection of effective solid reducting agent for tube furnaces. Fizicheskaya khimiya i tekhnologiya v metallurgii : mezhdunar. nauch.-prakt. konf. «Nauchnye osnovy i praktika pererabotki rud i tekhnogennogo syrya». Physical chemistry and technology in metallurgy : International scientific and practical conference «Scientific foundation and practice of the ores and technological raw material processing». Ekaterinburg, 2005.
23. Seregin P. P. Poluchenie gluboko vosstanovlennogo nikelevogo poroshka v trubchatykh pechakh. Obtainment of the profoundly reduced nickel powder in tube furnaces. 90 let v tsvetnoy metallurgii. Pod obshch. red. A. V. Tarasova : sb. nauch. tr. FGUP «Institut «Gintsvetmet». 90 years in non-ferrous metallurgy. Ed. by A. V. Tarasov. Collected proceedings of the «Gintsvetmet» Institute. Moscow, 2008.
24. Patent 2359049 RF. Sposob polucheniya aktivnogo nikelevogo poroshka. Method of the active nickel powder obtainment. Demidov K. A., Besedovskiy P. G., Kozyrev V. F. and etc. ; Asserted 18.06. 07; published. 20. 06.09, Bulletin. No. 17.
25. Bekker V. G., Fomichev V. B., Gritskikh V. B. and etc. Usovershenstvovannaya tekhnologiya polucheniya aktivnogo nikelevogo poroshka dlya ochistki nikelevogo anolita. Improved technology of the active nickel powder obtainment for nickel analyte purification. Tsvetnye metally. Non-ferrous metals. 2009. No. 8.


