Communication: Molecular simulation study of kaolinite intercalation with realistic layer size

Communication: Molecular simulation study of kaolinite intercalation with realistic layer size

Intercalation phenomena of kaolinite in aqueous potassium acetate and in hexyl-amine solutions are studied by large scale molecular dynamics simulations. The simulated kaolinite particle is constructed from ~6.5 × 10(6) atoms, producing a particle size of ~100 nm × 100 nm × 10 nm. The simulation wit...

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Veröffentlicht in:The Journal of chemical physics 2014-09, Vol.141 (9), p.091102-091102
Hauptverfasser: Ható, Zoltán, Rutkai, Gábor, Vrabec, Jadran, Kristóf, Tamás
Format: Artikel
Sprache:eng
Schlagworte:
ACETATES
AMINES
ATOMS
CLATHRATES
INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY
Intercalation
KAOLINITE
LAYERS
Molecular dynamics
MOLECULAR DYNAMICS METHOD
PARTICLE SIZE
PARTICLES
POTASSIUM
SIMULATION
SOLUTIONS
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Zusammenfassung:Intercalation phenomena of kaolinite in aqueous potassium acetate and in hexyl-amine solutions are studied by large scale molecular dynamics simulations. The simulated kaolinite particle is constructed from ~6.5 × 10(6) atoms, producing a particle size of ~100 nm × 100 nm × 10 nm. The simulation with potassium acetate results in a stable kaolinite-potassium acetate complex, with a basal spacing that is in close agreement with experimental data. The simulation with hexyl-amine shows signs of the experimentally observed delamination of kaolinite (the initial phase of the formation of nanoscrolls from the external layers).
ISSN:0021-9606
1089-7690
DOI:10.1063/1.4894756