THE EFFECT OF THE ADDITION OF THE REDUCED GRAPHITE OXIDE AND NICKEL ON THE REVERSIBLE MAGNESIUM HYDROGENATION

The results of studies of the effect of graphene similar materials and nickel-containing composites on process of reversible hydrogenation of magnesium are presented.

1. Tarasov B.P., Burnasheva V.V., Lotocky M.V., Yartysʹ V.A. Metody hraneniâ vodoroda i vozmožnosti ispolʹzovaniâ metallogidridov. International Scientific Journal for Alternative Energy and Ecology (ISJAEE), 2005, no. 12, pp. 14–37 (in Russ.).

2. Tarasov B.P., Lotocky M.V. Vodorodnaâ ènergetika: prošloe, nastoâŝee, vidy na buduŝee. Rossijskij himičeskij žurnal, 2006, vol. L, no. 6, pp. 5–18 (in Russ.).

3. Klyamkin S.N., Lukashev R.V., Tarasov B.P., Borisov D.N., Fokin V.N., Yartysʹ V.A. Vodorodsorbiruûŝie kompozity na osnove magniâ. Materialovedenie, 2005, no. 9, pp. 53–56 (in Russ.).

4. Tarasov B.P. Problemy i perspektivy sozdaniâ materialov dlâ hraneniâ vodoroda v svâzannom sostoânii. International Scientific Journal for Alternative Energy and Ecology (ISJAEE), 2006, no. 2, pp. 11–17 (in Russ.).

5. Tarasov B.P. Metal-hydride accumulators and generators of hydrogen for feeding fuel cells. International Journal of Hydrogen Energy, 2011, vol. 36, no. 1, pp. 1196–1199 (in Eng.).

6. Zaluska A., Zaluski L., Ström-Olsen J.O. Nanocrystalline magnesium for hydrogen storage. Journal of Alloys and Compounds, 1999, vol. 288, no. 1–2, pp. 217–225 (in Eng.).

7. Schlapbach L., Shaltiel D., Oelhafen P. Catalytic effect in the hydrogenation of Mg and Mg compounds: Surface analysis of Mg-Mg2Ni and Mg2Ni. Materials Research Bulletin, 1979, vol. 14, no. 9, pp. 1235–1246 (in Eng.).

8. Stioui M., Grayevsky A., Resnik A., Shaltiel D., Kaplan N. Macroscopic and microscopic kinetics of hydrogen in magnesium-rich compounds. Journal of the Less-Common Metals, 1986, vol. 123, no. 1–2, pp. 9–24 (in Eng.).

9. Huot J., Ravnsbæk D.B., Zhang J., Cuevas F., Latroche M., Jensen T.R. Mechanochemical synthesis of hydrogen storage materials. Progress in Materials Science, 2013, vol. 58, no. 1, pp. 30–75 (in Eng.).

10. Denys R.V., Riabov A.B., Maehlen J.P., LototskyM.V., Solberg J.K., Yartys V.A. In situ synchrotron X-ray diffraction studies of hydrogen desorption and absorption properties of Mg and Mg–Mm–Ni after reactive ball milling in hydrogen. Acta Materialia, 2009, vol. 57, no. 13, pp. 3989–4000 (in Eng.).

11. Liang G., Huot J., Boily S., Van Neste A., Schulz R. Catalytic effect of transition metals on hydrogen sorption in nanocrystalline ball milled MgH2–Tm (Tm–Ti, V, Mn, Fe and Ni) systems. Journal of Alloys and Compounds, 1999, vol. 292, no. 1–2, pp. 247–252 (in Eng.).

12. Hanada N., Ichikawa T., Fujii H. Catalytic effect of nanoparticle 3d-transition metals on hydrogen storage properties in magnesium hydride MgH2 prepared by mechanical milling. Jour-nal of Physical Chemistry B, 2005, vol. 109, no. 15, pp. 7188–7194 (in Eng.).

13. Orináková R., Orinák A. Recent applications of carbon nanotubes in hydrogen production and storage. Fuel, 2011, vol. 90, no. 11, pp. 3123–3140 (in Eng.).

14. Ranjbar A., Ismail M., Guo Z.P., Yu X.B., Liu H.K. Effects of CNTs on the hydrogen sto-rage properties of MgH2 and MgH2-BCC composite. International Journal of Hydrogen Energy, 2010, vol. 35, no. 15, pp. 7821–7826 (in Eng.).

15. Huang Z.G., Guo Z.P., Calka A., Wexler D., Liu H.K. Effects of carbon black, graphite and carbon nanotube additives on hydrogen storage properties of magnesium. Journal of Alloys and Compounds, 2007, vol. 427, no. 1–2, pp. 94–100 (in Eng.).

16. Lukashev R.V., Klyamkin S.N., Tarasov B.P. Polučenie i svojstva vodorodakkumuliruûŝih kompozitov v sisteme MgH2-C. Neorganičeskie materialy, vol. 42, no. 7, pp. 803–810 (in Russ.).

17. Rud A.D., Lakhnik A.M., Ivanchenko V.G., Uvarov V.N., Shkola A.A., Dekhtyarenko V.A., Ivaschuk L.I., Kuskova N.I. Hydrogen storage of the Mg–C composites. International Journal of Hydrogen Energy, 2008, vol. 33, no. 4, pp. 1310–1316 (in Eng.).

18. Lototskyy M., Sibanyoni J.M., Denys R.V., Williams M., Pollet B.G., Yartys V.A. Magne-sium–carbon hydrogen storage hybrid materials produced by reactive ball milling in hydrogen. Carbon, 2013, vol. 57, pp. 146–160 (in Eng.).

19. Liu G., Wang Y., Xu Ch., Qiu F., An C., Li L., Jiao L., Yuan H. Excellent catalytic effects of highly crumpled grapheme nanosheets on hydrogenation/dehydrogenation of magnesium hydride. Nanoscale, 2013, vol. 5, pp. 1074–1081 (in Eng.).

20. Zhang L., Chen L., Xiao X., Fan X., Shao J., Li Sh., Ge H., Wang Q. Fluorographene na-nosheets enhanced hydrogen absorption and desorption performances of magnesium hydride. International Journal of Hydrogen Energy, 2014, vol. 39, no. 24, pp. 12715–12726 (in Eng.).

21. Wang H., Robinson J.T., Diankov G., Dai H. Nanocrystal growth on graphene with various degrees of oxidation. Journal of the American Chemical Society, 2010, vol. 132, no. 10, pp. 3270–3271 (in Eng.).

22. Kuŝ S.D., Kuûnko N.S., Arbuzov A.A., Bondarenko G.V. Prigotovlenie soderžaŝih platinu katalizatorov gidrirovaniâ na termičeski vosstanovlennom oksidegrafita kak nositele. Kinetika i kataliz, 2015, vol. 56, no. 6, pp. 808–815 (in Russ.).

23. Arbuzov A.A., Klyuev M.V., Kalmykov P.A., Tarasov B.P., Magdalinova N.A., Muradyan V.E. Palladijsoderžaŝij katalizator gidrirovaniâ i sposob ego polučeniâ. Patent 2551673 RF MKI C1 // Bul. 2015. no. 15 (in Russ.).

24. Arbuzov A.A., Muradyan V.E., Tarasov B.P. Sintez maloslojnyh grafenovyh materialov iz oksida grafita. Izvestiâ Akademii Nauk. Seriâ Himičeskaâ, 2013, no. 9, pp. 1962–1966 (in Russ.).

25. Arbuzov A.A., Muradyan V.E., Tarasov B.P., Sokolov E.A., Babenko S.D. Èpoksidnye kompozity s termičeski vosstanovlennym oksidom grafita i ih svojstva. Žurnal fizičeskoj himii, 2016, vol. 90, no. 5, pp. 665–669 (in Russ.).

26. Malecka B., Malecki A., Drozdz–Ciesla E., Tortet L., Llewellyn P., Rouquerol F. Some as-pects of thermal decomposition of NiC2O4•2H2O. Thermochimica Acta, 2007, vol. 466, no. 1–2, pp. 57–62 (in Eng.).

27. Liang X., Wang Yu, Zheng H., Wu Z. X-ray absorption spectroscopy study on the thermal and hydrazine reduction of graphene oxide. Journal of Electron Spectroscopy and Related Phenomena, 2014, vol. 196, pp. 89–93 (in Eng.).

28. Borisov D.N., Fursikov P.V., Tarasov B.P. Influence of carbonaceous additives on hydro-gen sorption properties of Mg–RE–Ni “pseudoalloys”. International Journal of Hydrogen Energy, 2011, vol. 36, no. 1, pp. 1326–1329 (in Eng.).