Nanotechnology Research - Universities

KIC creates new techniques to image and dynamically control nanoscale systems and uses these techniques to push the frontiers of nanoscale science. KIC's measurement-oriented mission complements existing strengths at Cornell in nanofabrication.

The McEuen Group runs the Laboratory of Atomic and Solid State Physics at Cornell. Reaerch focus is on proberties of carbon nanotubes, SPM of nanostructures, single molecule electronics and applications of nanoelectronics in chemistry and biology

The Muller group is the research group of Prof. David A. Muller, a faculty member of the Applied and Engineering Physics department of Cornell University. The group's research typically centres around the investigation of the underlying physics of functional nanostructures, primarily by the application of advanced microscopic and spectroscopic techniques.

This research group aims at understanding complex phenomena at the nanoscale that are of fundamental relevance to fiber and polymer science.

The Energy and Environmental Technology Applications Center (E2TAC) addresses the needs of advanced energy and environmental applications by leveraging the intellectual power base and state-of-the-art infrastructure at the College of Nanoscale Science and Engineering (CNSE) and making use of its extensive capabilities in microelectronics and nanotechnology.

This program is comprised of three major components: arts and sciences, electrical engineering technology, and free electives. The electrical engineering technology component consists of core and concentration requirements in addition to electrical technology elective credits.

The central scientific focus of the Kavli Institute at Cornell is to ddress the major challenges and opportunities for science at the atomic and molecular scale.

Nanoscience and materials at NYU includes fullerene derivatization studies, chiral sensors and triggered materials, peptide nanotechnology; peptide surface interactions, molecular imaging agents, and proteins containing unnatural amino acids.

The CCNI is designed both to help continue the impressive advances in shrinking device dimensions seen by electronics manufacturers, and to extend this model to a wide array of industries that could benefit from nanotechnology.

The research focus of this NSF-funded Nanoscale Science and Engineering Center (NSEC) for Directed Assembly of Nanostructures is to discover and develop the means to assemble nanoscale building blocks with unique properties into functional structures under well-controlled, intentionally directed conditions. Their overall mission is to integrate research, education, and technology dissemination to serve as a national and international resource for fundamental knowledge and applications in directed assembly of nanostructures.