Metal Nanocrystal Superlattice Nucleation and Growth

Abstract

Thin films of dodecanethiol-passivated Au and Ag nanocrystals drop cast from different solvents were examined by high-resolution scanning electron microscopy (HRSEM). C₁₂-coated Au and Ag nanocrystals, 5−7 nm in diameter, form face-centered cubic (fcc) superlattices oriented with the (111)_s planes (subscript s denoting superlattice) parallel to the substrate when deposited from good solvents, such as hexane, chloroform, and toluene. The gross morphology of the films depended on the solvent: hexane produced rough superlattice films whereas chloroform deposited smooth films. The difference in interparticle attraction, which is approximately 20% higher in hexane, appears to give rise to the difference in film morphology. Addition of a poor solvent to the dispersion prior to drop casting led to superlattices with decreased order. Although the superlattices always orient with (111)_s as the basal plane on the substrate, superlattices deposited from chloroform grow preferentially in the [110]_s direction, whereas hexane deposits superlattices that grow primarily in the [111]_s direction.