Highlights

A collaboration between researcher supported by the DOE and NSF-MRSEC’s at UC Santa Barbara and UMASS Amherst, and IBM has led to a revolutionary chip breakthrough that promises to be used in every future microelectronic device.

Hundreds of person-years have been spent during this decade to prepare that exhibit high water contact angles. McCarthy recently reported contact angle studies of compressed samples of a commercially available lubricant (variable diameter submicron particles of tetrafluoroethylene oligomers - OTFE) that indicate that this surface is perfectly hydrophobic (qA/qR = 180°/180°). They […]

“Perfectly hydrophobic” surfaces have been developed by McCarthy and are being applied to low friction motion and lubrication McCarthy and Crosby. Shown in the image is an “18-wheel vehicle”, prepared by treating a dimethyldichlorosilane-treated quartz plate with UV/ozone through a mask containing 18 hexagonally arrayed 1 mm diameter holes spaced by 4 mm on […]

Composites of polymers and inorganic nanoparticles offer tremendous promise for the optimization of mechanical properties. Although many claims of improved properties and balanced optimization can be found in the scientific literature over the past several decades, very little fundamental insight has been provided for the true “nano” effect on mechanical properties. Crosby […]

The fabrication of functional nanostructured materials requires practical approaches to self-assembly on multiple length scales. Here, the directed self-assembly of functionalized, luminescent nanoparticles at oil-water interface, followed by crosslinking of the associated ligands, affords robust membranes. These composite membranes, nanometers in thickness, are shown to be effective diffusion barriers that have potential applications in controlled […]