Adsorption behavior of NH4+ and Mg2+ at kaolinite surfaces: Effect of the ion concentration, NH4+/Mg2+ mixing ratio, and layer charge

XS Shao and CL Peng and GS Wang and L Qin and P Long, ASIA-PACIFIC JOURNAL OF CHEMICAL ENGINEERING, 19 (2024).

DOI: 10.1002/apj.3106

The adsorption behavior of NH4+ and Mg2+ at kaolinite surfaces was investigated by using molecular dynamics (MD) simulations, considering the factors such as ion concentration, NH4+/Mg2+ mixing ratio, and layer charge of kaolinite. The results showed that the increase in ion concentration did not affect the adsorption modes of NH4+ and Mg2+ ions but promote the increase in the adsorption capacity. The total adsorption capacities of Mg2+ and NH4+ were 3.25 x 10(-6) and 2.85 x 10(-6) mu molmm(-2) at the ion concentration of 1.5 molL-1, respectively. When NH4+ and Mg2+ were co-adsorbed, they could inhibit the adsorption of each other at the surface of kaolinite, except that the inner-sphere (IS) adsorption of NH4+ at aluminum hydroxyl (Al-OH) surface could be enhanced by the presence of Mg2+. Both NH4+ and Mg2+ tended to adsorb at the siloxane (Si-O) surface of kaolinite rather than Al-OH surface. When layer charge occurred in kaolinite, a small number of Mg2+ began to adsorb in the IS complexes at 1.7 and 2.3 & Aring; above the Al and O atoms of the lattice-substituted tetrahedra of the Si-O surface, and at 1.7 & Aring; above the hexahedra of the Al-OH surface. However, most of NH4+ were adsorbed in IS complexes at 1.7 & Aring; above the center of the oxygen six-membered ring of the Si-O surface and above the hexahedron of the Al-OH surface. The adsorption capacity of Mg2+ changed little with the increase of layer charge density, while the IS and total adsorption capacity of NH4+ increased significantly.

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