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Electronic Structure and Mechanical Properties of Solvated Montmorillonite Clay Using Large-Scale DFT Method

Layla Shafei, Puja Adhikari, Saro San, W. Y. Ching

2023Crystals12 citationsDOIOpen Access PDF

Abstract

Montmorillonite clay (MMT) has been widely used in engineering and environmental applications as a landfill barrier and toxic waste repository due to its unique property as an expandable clay mineral that can absorb water easily. This absorption process rendered MMT to be highly exothermic due to electrostatic interactions among molecules and hydrogen bonds between surface atoms. A detailed study of a large supercell model of structural clay enables us to predict long-term nuclear waste storage. Herein, a large solvent MMT model with 4071 atoms is studied using ab initio density functional theory. The DFT calculation and analysis clarify the important issues, such as bond strength, solvation effect, elasticity, and seismic wave velocities. These results are compared to our previous study on crystalline MMT (dry). The solvated MMT has reduced shear modulus (G), bulk modulus (K), and Young’s modulus (E). We observe that the conduction band (CB) in the density of states (DOS) of solvated MMT model has a single, conspicuous peak at −8.5 eV. Moreover, the atom-resolved partial density of states (PDOS) summarizes the roles played by each atom in the DOS. These findings illuminate numerous potential sophisticated applications of MMT clay.

Topics & Concepts

Density functional theoryMontmorilloniteMaterials scienceSolvationClay mineralsBulk modulusChemical physicsHydrogen bondMoleculeComposite materialChemistryComputational chemistryMineralogyOrganic chemistrySoil and Unsaturated FlowClay minerals and soil interactionsGeotechnical and construction materials studies
Electronic Structure and Mechanical Properties of Solvated Montmorillonite Clay Using Large-Scale DFT Method | Litcius