4.  Notten  P.  H.  L.  and  Latroche  M.  Secondary  batteries  –  Nickel  systems,  Nickel-Metal
                     Hydride: Metal Hydrides, Reference Module in Chemistry // Molecular Sci. and Chem. Eng.,
                     from Encyclopedia of Electrochemical Power Sources. – 2009. – P. 502–521.
                  5.  Zhao  X.  and  Ma  L.  Recent  progress  in  hydrogen  storage  alloys  for  nickel/metal  hydride
                     secondary batteries // Int. J. Hydrogen Energy. – 2009. – 34. – P. 4788–4796.
                  6.  Rare earth-Mg–Ni-based hydrogen storage alloys as negative electrode materials for Ni/MH
                     batteries / Y. Liu, Y. Cao, L. Huang, M. Gao, H. Pan // J. Alloys Compd. – 2011. – 509(3).
                     – P. 675–686.
                  7.  Advanced hydrogen storage alloys for Ni/MH rechargeable batteries / Y. Liu, H. Pan, M. Gao,
                     Q. Wang // J. Mater. Chem. – 2011. – 21. – P. 4743–4755.
                  8.  Солонін Ю. М. Металогідридні сплави для хімічних джерел струму // Фізико-технічні
                     проблеми матеріалознавства НАНУ, ОРТГН. – К., 2015. – Т. 2. – С. 232–253.
                  9.  Virkar A. V. and Raman A. Crystal structures of AB 3  and A 2 B 7  rare earth nickel phases // J.
                     Less-Common Met. – 1969. – 18. – P. 59–66.
                  10. Burnasheva V. V., Tarasov B. P., and Semenenko K. N. Hydride phase of the system RNi 3 –H 2
                     where  R  is  the  cerium  subgroup  rare  earth  metal  //  Russ.  J.  Inorg.  Chem.  –  1982.  –  27.
                     – P. 3039–3042.
                  11. Van Essen R. H. and Buschow K. H. J. Hydrogen sorption characteristic of Ce-3d and Y-3d
                     intermetallic compounds // J. Less-Common Met. – 1980. – 70. – P. 189–198.
                  12. Hydrogen  interaction  with  PuNi 3   type  intermetallic  compounds  at  high  gaseous  pressure  /
                     Y. N. Verbetsky, S.  N.  Klyamkin, A. Yu.  Kovriga, and A. P. Bespalov //  Int. J.  Hydrogen
                     Energy. – 1996. – 21. – P. 997–1000.
                  13. Hydriding  properties  of  LaNi 3   and  CaNi 3   and  their  substitutes  with  PuNi 3 -type  structure
                     / J. Chen, H. T. Takeshita, H. Tanaka et al. // J. Alloys Compd. – 2000. – 302. – P. 304–313.
                  14. Hydrogen  storage  properties  and  structure  of  La 1–x Mg x (Ni 1–y Mn y ) 3   intermetallics  and  their
                     hydrides / R. V. Denys, B. Riabov, V. A. Yartys, R. G. Delaplane, and M. Sato // J. Alloys
                     Compd. – 2007. – 446–447. – P. 166–172.
                  15. Unusual effects on hydrogenation: anomalous expansion and volume contraction / V. A. Yartys,
                     O. Isnard, A. B. Riabov, L. G. Akselrud // J. Alloys Compd. – 2003. – 356–357. – P. 109–113.
                  16. Structure, chemical bonds and anisotropy in hydrides IMC with CeNi 3  and PuNi 3  structure
                     / S. A. Lushnikov, Y. N. Verbetsky, V. P. Glazkov, and V. A. Somenkov // J. Alloys Compd.
                     – 2007. – 446–447. – P. 28–33.
                  17. Cromer D. T. and Larson A. C. The crystal structure of Ce 2 Ni 7  // Acta Crystallogr. – 1959.
                     – 12. – P. 855–859.
                  18. Lemaire R., Paccard D., Pauthenet R. Propriétés magnétiques des alliages de formule T 2 Ni 7 ,
                     dans laquelle T désigne un métal de terre rare ou l'yttrium // C. R. Seances Acad. Sci. Ser. B.
                     – 1967. – P. 265–1280.
                  19. Buschow  K.  H.  J.  and  Van  Der  Goot  A.  S.  The  crystal  structure  of  rare-earth  nickel
                     compounds of the type R 2 Ni 7  // J. Less-Common Met. – 1970. – 22. – P. 419–428.
                  20. Microstructures and hydrogen absorption/desorption properties of La-Ni alloys in the com-
                     position range of La–77.8 ~ 83.2 at.% Ni / T. Yamamoto, H. Inui, M. Yamaguchi, K. Sato,
                     S. Fujitani, I. Yonezu, and K. Nishio // Acta Mater. – 1997. – 45. – P. 5213–5221.
                  21. Polytypism of La–Ni phases in multicomponent AB 5  type hydride electrode alloys / Y. Chen,
                     C. A. C. Sequeira, X. Song, R. Neto, and Q. Wang // Int. J. Hydrogen Energy. – 2002. – 27.
                     – P. 63–68.
                  22. Elaboration and characterization of unreported (Pr,Nd) 5 Ni 19  hydrides / L. Lemort, M. Latroche,
                     B. Knosp, and P. Bernard // J. Alloys Compd. – 2011. – 509. – P. S823–S826.
                  23. Synthesis and crystal structure of a Pr 5 Ni 19  superlattice alloy and its hydrogen absorption-
                     desorption  property  /  K.  Iwase,  K.  Sakaki,  J.  Matsuda,  Y.  Nakamura,  T.  Ishigaki,  and
                     E. Akiba // Inorg. Chem. – 2011. – 50. – P. 4548–4552.
                  24. Takeda S., Kitano Y., and Komura Y. Polytypes of the intermetallic compounds Sm 5 Ni 19  // J.
                     Less-Common Met. – 1982. – 84. – P. 317–325.
                  25. Novel intermetallic hydrides / V. A. Yartys, A. B. Riabov, R. V. Denys, M. Sato, and R. G. De-
                     laplane // J. Alloys Compd. – 2006. – 408–412. – P. 273–279.
                  26. Crystal chemistry and thermodynamic properties of anisotropic Ce 2 Ni 7 H 4.7  hydride / R. V. De-
                     nys,  V.  A.  Yartys,  M.  Sato,  A.  B.  Riabov,  and  R.  G.  Delaplane  //  J.  Solid  State  Chem.
                     – 2007. – 180. – P. 2566–2576.
                  27. Filinchuk Y. E., Yvon K., and Emerich H. Tetrahedral D atom coordination of nickel and
                     evidence  for  antiisostructural  phase  transition  in  orthorhombic  Ce 2 Ni 7 D ~4   //  Inorg.  Chem.
                     – 2007. – 46. – P. 2914–2920.

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