JOURNAL CLUB DO DEPARTAMENTO DE FÍSICA DOS MATERIAIS E MECÂNICA
Nesta semana o pós-graduando Eduardo Santos Carvalho, do Grupo Teórico de Materiais, apresentará o artigo: “Liquid-Phase Exfoliation of Phosphorene: Design Rules from Molecular Dynamics Simulations”, V. Sresht et al.
Data: 26 de abril, terça-feira, Sala de Seminários José Roberto Leite, no Ed. Alessandro Volta (bloco C) – Sala 110, IFUSP, às 12h10
Abstract:
The liquid-phase exfoliation of phosphorene, the two-dimensional derivative of black phosphorus, in the solvents dimethyl sulfoxide (DMSO), dimethylformamide (DMF), isopropyl alcohol, N-methyl-2-pyrrolidone, and N-cyclohexyl-2-pyrrolidone is investigated using three molecular-scale “computer experiments”. We modeled solvent–phosphorene interactions using an atomistic force field, based on ab initio calculations and lattice dynamics, that accurately reproduces experimental mechanical properties. We probed solvent molecule ordering at phosphorene/solvent interfaces and discovered that planar molecules such as N-methyl-2-pyrrolidone preferentially orient parallel to the interface. We subsequently measured the energy required to peel a single phosphorene monolayer from a stack of black phosphorus BIFUSP 2. and analyzed the role of “wedges” of solvent molecules intercalating between phosphorene sheets in initiating exfoliation. The exfoliation efficacy of a solvent is enhanced when either molecular planarity “sharpens” this molecular wedge or strong phosphorene–solvent adhesion stabilizes the newly exposed phosphorene surfaces. Finally, we examined the colloidal stability of exfoliated flakes by simulating their aggregation and showed that dispersion is favored when the cohesive energy between the molecules in the solvent monolayer confined between the phosphorene sheets is high (as with DMSO) and is hindered when the adhesion between these molecules and phosphorene is strong; the molecular planarity in solvents like DMF enhances the cohesive energy. Our results are consistent with, and provide a molecular context for, experimental exfoliation studies of phosphorene and other layered solids, and our molecular insights into the significant role of solvent molecular geometry and ordering should complement prevalent solubilityparameter-based approaches in establishing design rules for effective nanomaterial exfoliation media.
DOI: 10.1021/acsnano.5b02683
