The Columbia University Nanocenter's goal is to establish new paradigms for information processing using the characteristics of electron transport unique to nanoscale molecular structures. Founded in 2001, the Nanocenter draws upon years of experience in chemical synthesis to design molecular structures with carefully crafted properties.
The Converging Technologies Bar Association is the first professional association in the world dedicated to addressing the multi-faceted impact of converging technologies. With its collective focus on nanotechnology, biotechnology, information technology, cognitive science, neuroscience, and other related sciences and technologies, the CTBA provides a rich forum for bringing clarity and focus to the legal, ethical, and societal issues generated by the convergence of these provinces.
Established as one of 6 interdisciplinary Nanoscale Science and Engineering Centers to address the existing challenges and opportunities that are to be found in nanotechnology research and development.
The group investigates the physics and applications of nanoscale photonic structures. In particular, they are interested in light confining structures that can slow down, trap, enhance and manipulate light. Photonic structures can enhance light-matter interactions by orders of magnitude.The applications of the devices that the group designs, fabricates and demonstrates are numerous: on-chip light modulation (optically and electro-optically) and detection, networks on-chip, nonlinear phenomena, multi-material devices and platforms, microfluidics, basic physics, etc.
The group of Prof. Carl A. Batt is engaged in basic and applied research in a wide range of topics. One area of focus in on the use of protein engineering / expression techniques for developing recombinant anti-cancer therapeutics. Another active area of research involves the design and engineering of portable sensor devices using leading-edge micro- and nanofabrication methods. The third major area of investigation in our lab explores how biomaterials may be used to develop novel methodologies for creating advanced microfluidic systems and nanostructured arrays for bioanalytical applications.
The Craighead research group at Cornell focuses on creating nanoscale devices using established and newly-developed techniques. A major motivation is to develop methods to pattern, sort, and analyze biological materials.
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.
Nanobiotechnology is an emerging area of scientific and technological opportunity. It applies the tools and processes of nano/microfabrication to build devices for studying biosystems. Researchers also learn from biology how to create better micro-nanoscale devices. The Nanobiotechnology Center (NBTC), a National Science Foundation, Science and Technology Center is characterized by its highly interdisciplinary nature and features a close collaboration between life scientists, physical scientists, and engineers
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 mission of the Micro and Nano Structures Organization is to apply frontier research knowledge and engineering techniques to synthesize, manipulate, and modify materials to create novel electronic devices, photonic devices, integrated structures and machines.