Page 175 - Thesis_Oprysk_Volodymyr
P. 175

170

                      183.  Verbovyts'kyi, Y. V., & Zavalii, I. Y. (2017). New metal-hydride materials


               based on R 2-xMg xNi 4 alloys for chemical current sources. Materials Science, 52, 747–

               759. https://doi.org/10.1007/s11003-017-0018-6

                      184.  Verbovytskyy,  Y.  V.,  Shtender,  V.  V.,  &  Lyutyi,  P.  Y.  (2017).  Electrode

               materials  based  on  LaMgNi 4-xCo x  (0  ≤  x  ≤  1)  alloys.  Powder  Metallurgy  and  Metal

               Ceramics, 55, 559–566. https://doi.org/10.1007/s11106-017-9839-y

                      185.  Verbovytskyy, Y., Oprysk, V., Paul-Boncour, V., Zavaliy, I., Berezovets, V., Lyutyy, P. and

               Kosarchyn, Y., 2021. Solid gas and electrochemical hydrogenation of the selected alloys (R’, R’’) 2-xMgₓNi 4-

               yCo y  (R’,  R’’  =  Pr,  Nd;  x  =  0.8-1.2;  y  =  0-2).  Journal  of Alloys  and  Compounds,  876,  p.160155.

               https://doi.org/10.1016/j.jallcom.2021.160155.

                      186.  Оприск, В.О., Вербовицький, Ю.В., Штендер, В.В., Лютий, П.Я. та Завалій, І.Ю.,

               2018.  Синтез,  структура  та  воденьсорбційні  властивості  сплавів  Nd 0.5Pr 0.5MgNi 4-xCo x.  ХХ-та

               Українська конференція з неорганічної хімії, Дніпро, Україна, 17-20 вересня 2018, С.103.

                      187.  Verbovytskyy, Y., Oprysk, V., Zavaliy, I., Vlad, K., Berezovets, V., & Kosarchyn, Y. (2024).

               The impact of La/Y and Ni/Co substitutions on the gas-phase and electrochemical hydrogenation properties

               of  the  La 3-xMg xNi 9  alloys.  Journal  of  Alloys  and  Compounds,  977,  173247.

               https://doi.org/10.1016/j.jallcom.2023.173247

                      188.  Verbovytskyy, Y., Oprysk, V., Zavaliy, I., Vlad, K., Berezovets, V. And Kosarchyn, Y.,

               2023. Impact of Y and Co Substitution on Hydrogenation Properties of La–Mg–Ni–Based Alloys: Gas-

               Phase and Electrochemical Studies. XV International Conference on Crystal Chemistry of Intermetallic

               Compounds (IMC-XV), Lviv, Ukraine, 25–27 September 2023.

                      189.  Oprysk,  V.,  Verbovytskyy,  Y.,  Kononyuk,  O.  and  Zavaliy,  I.,  2023.  Electrochemical

               Hydrogenation Properties of Novel (La,Y) 2-xMg xNi 9-yCo y Alloys with PuNi 3 Structure Type. Львівські

               хімічні читання – 2023, Львів, Україна, 29-31 травня 2023.

                      190.  Westlake, D. G. (1983). Site occupancies and stoichiometries in hydrides of

               intermetallic compounds: Geometric considerations. Journal of the Less Common Metals,

               90(2), 251–273. https://doi.org/10.1016/0022-5088(83)90075-9

                      191.  Zheng,  G.,  Popov,  B.  N.,  &  White,  R.  E.  (1995).  Electrochemical

               determination of the diffusion coefficient of hydrogen through an LaNi 4.25Al 0.75 electrode
   170   171   172   173   174   175   176   177