Noncovalent self-assembly of silver nanocrystal aggregates in solution

Size monodisperse silver nanocrystals have been stabilized by chemisorption of long-chain alkane thiols incorporating a receptor site. When dispersed in a suitable solvent these nanocrystals recognize and selectively bind a l ong-chain alkane incorporating two complementary substrate sites and are no ncovalently linked. The nanocrystal aggregates formed as a result have been studied by NMR, FT-IR, and dynamic light scattering. As a consequence, it has been possible to characterize the interactions between the receptor and substrate sites that lead to nanocrystal aggregation. It has also been pos sible to gain insights into the factors that affect the size, shape, and in ternal structure of the nanocrystal aggregates formed. An important insight is that the kinetics of nanocrystal aggregation, and as a consequence the structure of the nanocrystal aggregates formed, depends on the number of re ceptor sites at the surface of a nanocrystal.