(86b) Molecular Dynamics Simulation of Nanoparticle Self-Assembly at a Liquid-Liquid Interface | AIChE

(86b) Molecular Dynamics Simulation of Nanoparticle Self-Assembly at a Liquid-Liquid Interface

Authors 

Luo, M. - Presenter, Texas Tech University
Mazyar, O. A. - Presenter, Texas Tech University
Zhu, Q. - Presenter, Purdue University
Vaughn, M. W. - Presenter, Texas Tech University
Hase, W. L. - Presenter, Texas Tech University
Dai, L. L. - Presenter, Arizona State University


We have used molecular dynamics simulations to investigate the in-situ self-assembly of modified hydrocarbon nanoparticles (mean diameter of 1.2 nm) at a water-trichloroethylene (TCE) interface. The nanoparticles were first distributed randomly in the water phase. The MD simulation shows the in-situ formation of nanoparticle clusters and the migration of both single particles and clusters from the water phase to the trichloroethylene phase, possibly due to the hydrophobic nature of the nanoparticles. Eventually, the single nanoparticles or clusters equilibrate at the water-TCE interface, and the surrounding liquid molecules pack randomly when in contact with the nanoparticle surfaces. In addition, the simulations show that the water-TCE interfacial thickness analyzed from density profiles is influenced by the presence of nanoparticles either near or in contact with the interface but is independent of the number of nanoparticles present. The nanoparticles, water molecules, and TCE molecules all exhibit diffusion anisotropy.