TY - JOUR T1 - A DFT Study of Hydrogen Adsorption Kinetics and Thermodynamics on Mixed Oxides of Mg_0.5 Ni_0.25 O_1.13 AU - Sufian, Suriati AU - Salam, M. Abdus JO - Journal of Engineering and Applied Sciences VL - 12 IS - 17 SP - 4431 EP - 4436 PY - 2017 DA - 2001/08/19 SN - 1816-949x DO - jeasci.2017.4431.4436 UR - https://makhillpublications.co/view-article.php?doi=jeasci.2017.4431.4436 KW - DFT KW -kinetic KW -thermodynamics KW -adsorption KW -Hydrogen KW -indicating AB - Hydrogen sorption mechanism, kinetics and thermodynamics of hydrotalcite derived mixed oxides of Mg_0.5 Ni_0.25 O_1.13 have been studied using the density functional theory. Hydrotalcite based magnesium 0.5 0.25 0.25 1.13 and nickel and aluminum containing mixed oxides showed significant hydrogen sorption kinetics and thermodynamics. Reduced mixed oxides or active metals of Magnesium (Mg) and Nickel (Ni) converted to hydrides of MgH₂ and Mg₂ NiH₄. The study indicated the favorable hydrides formation which is due to the electrostatic interaction and strong hydrogen bonding type interaction between them. The materials itself facilitate to diffuse hydrogen molecules to different layers of the materials and enhances the sorption kinetics. Hydrogen adsorption and desorption energy of MgH₂ and Mg₂ NiH₄ are 60.13, 64.31, 40.22 and 45.72 kJ/mol, respectively. Model predicted values of hydrogen adsorption enthalpy and entropy changes of MgH₂ and Mg₂ NiH₄ are -48.18 Kj/mol, -135j/mol.K, -55.10 Kj/mol and -155 J/mol.K, respectively. The rate constant of adsorption are 6.0×10¹² and 1.3×10¹³ sec^–1 for MgH₂ and Mg₂ NiH₄ hose are indicating physical and chemical adsorption of hydrogen. ER -