Novel Interparticle Spatial Properties of Hydrogen-Bonding Mediated Nanoparticle Assembly

Results of an investigation of hydrogen-bonding mediated interparticle assembling and spatial properties from extremely dilute concentrations of the mediation agent are reported. Nanoparticles consisting of highly monodispersed decanethiolate-capped gold nanocrystal cores and α,ω-mercapto-alkanoic acids are highlighted as a model system. The formation of a stable ordered array is demonstrated via manipulating the constituents in solution. Infrared reflection spectroscopy, spectrophotometry, transmission electron microscopy, and atomic force microscopy have been utilized to probe the interparticle structural and spatial properties. A “squeezed” interparticle spatial model involving both hydrogen-bonding at the carboxylic acid groups and cohesive van der Waals interaction through interdigitation of the capping decanethiolate molecules is concluded to be responsible for the interparticle assembling forces. This interparticle spatial property depends on the relative amount of the hydrogen-bonding mediation ag...