Tel Aviv University has launched the first interdisciplinary university research institute for nanoscience and nanotechnology in Israel, with a multimillion investment. Over 40 groups actively conduct leading research in electronics, physics, chemistry, biotech and medicine, developing more than 85 specific and interdisciplinary projects.
The main focus of the group is single-molecule genomics but they have activity also in development of new optical detection schemes and novel imaging techniques. They explore genomes utilizing tools and reagents from the realm of nano-technology. The team try learning new things about these systems by zooming in on individuals - single cells, single chromosomes and single molecules.
The Functional Nanomaterials and Electrochemistry group, under the leadership of Prof. Israel Rubinstein, focuses its research in the general area of nanochemistry, namely the preparation, study and applications of novel architectures controlled on the nanometer scale.
The group is interested in developing new molecular and nanoscale approaches to both understanding chemical and physical properties of materials (inorganic, organic and biological) as well as to the production and assembly of new materials and devices exhibiting interesting phenomena and useful applications. Their research emphasizes the role of intermolecular forces in chemistry, as the basis for both molecular recognition and molecular assembly.
The group of Dan Oron is concerned with nonlinear optical properties of plasmonic nanostructures, dynamics of multiply excited multicomponent semiconductor quantum dots, development of far-field sub-diffraction-limited imaging techniques, and nanoparticle-based nonlinear microscopy techniques.
The group is investigating chemical and physical properties of matter at the nanoscale. They are particularly interested in new approaches to the synthesis of nanocrystals: self-assembly of nanoparticles; organic nanostructures; supramolecular chemistry; chemical reactivity in confined spaces; molecular switches; and stimuli-responsive materials.
The Sub Micron Semiconductor Center is a unique facility enabling the design, material growth, fabrication, and characterization of mesoscopic systems, with dimensions ranging from 10 nm to a few micrometers.