hydrogen storage alloy catalyzed by Ni/Co/Zn-based MOF. Int. J. Hydrog. Energy
                  71, 1416–1427 (2024)

                  [245] Naseem,  K.,  Zhang,  J.,  Fayyaz,  A.,  Hayat,  W.,  Ahmed,  S.,  Khursheed,  S.:
                  Enhanced generation of hydrogen through hydrolysis of biochar-coupled magnesium:
                  analysis of the performance of biochar-support and the effect of metallic coating on
                  biochar. J. Environ. Chem. Eng. 12, 111770 (2024)

                  [246] Wu,  D.,  Li,  R.,  Zhou,  Q.,  Tang,  R.,  Xiao,  F.:  Light-activated  hydrolysis
                  properties of Mg-based materials. RSC Adv. 12, 6533–6539 (2022)

                  [247] Bai,  J.,  Yun,  H.,  Wang,  X.,  Dai,  X.,  Hou,  X.,  Xu,  Y.:  Hydrolytic  hydrogen
                  production behavior in NaCl solution of Mg and Mg-GO composite synthesized by
                  mechanochemical reaction. J. Alloys Compd. 969, 172473 (2023)

                  [248]  Ge,  L.,  Zhu,  Y.,  Qiu,  M.,  Yang,  S.,  Sun,  N.,  Wei,  W.,  Li,  J.,  Chen,  X.:  A
                  highly  active  Pd  clusters  hosted  by  magnesium  hydroxide  nanosheets  promoting
                  hydrogen storage. Appl. Catal. B Environ. 333, 122793 (2023)

                  [249] Qiu, H., Yang, G., Lv, L., Han, X., Zang, S., Liu, W., Wang, X.: Hydrogen
                  generation from the hydrolysis of LaMg₁₂H₂₇ ball-milled with LiH. Int. J. Hydrog.
                  Energy 48, 20216–20224 (2023)
                  [250] Legrée, M., Charbonnier, V., Al Bacha, S., Asano, K., Sakaki, K., Aubert, I.,

                  Mauvy,  F.,  Bobet,  J.-L.:  Hydrogen  generation  by  hydrolysis  reaction  using
                  magnesium alloys with long period stacking ordered structure. Int. J. Hydrog. Energy
                  46, 35161–35171 (2021)

                  [251] Pugazhendhi, B.S., Kar, A., Sinnaeruvadi, K., Suwas, S.: Effect of aluminium
                  on microstructure, mechanical property and texture evolution of dual phase Mg-8Li
                  alloy in different processing conditions. Arch. Civ. Mech. Eng. 18, 1332–1344 (2018)

                  [252] Hong,  S.-H.,  Kim,  H.-J.,  Song,  M.Y.:  Rate  enhancement  of  hydrogen
                  generation through the reaction of magnesium hydride with water by MgO addition
                  and ball milling. J. Ind. Eng. Chem. 18, 405–408 (2012)

                  [253] Awad, A., El-Asmar, E., Tayeh, T., Mauvy, F., Nakhl, M., Zakhour, M., Bobet,
                  J.-L.:  Effect of  carbons  (G  and CFs),  TM  (Ni, Fe  and  Al)  and  oxides (Nb₂O₅ and
                  V₂O₅) on hydrogen generation from ball milled Mg-based hydrolysis reaction for fuel
                  cell. Energy 95, 175–186 (2016)

                  [254] Yang,  B.,  Zou,  J.,  Huang,  T.,  Mao,  J.,  Zeng,  X.,  Ding,  W.:  Enhanced
                  hydrogenation and hydrolysis properties of core-shell structured Mg-MOₓ (M = Al,

                  Ti and Fe) nanocomposites prepared by arc plasma method. Chem. Eng. J. 371, 233–
                  243 (2019)
                  [255] Huang,  M.,  Ouyang,  L.,  Chen,  Z.,  Peng,  C.,  Zhu,  X.,  Zhu,  M.:  Hydrogen
                  production  via  hydrolysis  of  Mg-oxide  composites.  Int.  J.  Hydrogen  Energy  42,

                  22305–22311 (2017)


                                                                                                               200