Joined: 16 Mar 2004
|Posted: Tue Aug 11, 2009 11:23 am Post subject: IET / IoN Joint Prestige Lecture: The Age of Nanotechnology
|Guest Speaker: Professor James Gimzewski, UCLA
The Institute of Nanotechnology (IoN), in partnership with the Institution of Engineering and Technology (IET), hosted a special guest lecture to celebrate the launch of their joint Micro and Nano Technology Network. Held in London on 8th July, the lecture is now available online.
The Age of Nanotechnology
Professor James Gimzewski
Presentation from London, UK
2008-07-08 12:00:00.0 Electronics Channel
>> go to webcast
About the presentation
James Gimzewski talks about the strongest material ever made, the reality of a space elevator, how the electronics industry kick-started the nanomedicine revolution and the potential for programming single molecules. If that's not enough diversity in one individual, he also shares some of his passion for the artistic interpretation of the nano world.
About the speaker
Jim Gimzewski is a Distinguished Professor of Chemistry at the University of California, Los Angeles and Director of the Nano & Pico Characterization Core Facility of the California NanoSystems Institute and the Scientific Director of the Art|Sci Center. Prior to joining the UCLA faculty, he was a group leader at IBM Zurich Research Laboratory, where he research in nanoscale science and technology for more than 18 years.
Dr. Gimzewski pioneered research on mechanical and electrical contacts with single atoms and molecules using scanning tunneling microscopy (STM) and was one of the first persons to image molecules with STM.
His accomplishments include the first STM-based fabrication of molecular suprastructures at room temperature using mechanical forces to push molecules across surfaces, the discovery of single molecule rotors and the development of new micromechanical sensors based on nanotechnology, which explore ultimate limits of sensitivity and measurement.
This approach was recently used to convert biochemical recognition into Nanomechanics. His current interests are in the nanomechanics of cells and bacteria where he collaborates with the UCLA Medical and Dental Schools.
He is involved in projects that range from the operation of X-rays, ions and nuclear fusion using pyroelectric crystals, direct deposition of carbon nanotubes and single molecule DNA profiling. Dr. Gimzewski is also involved in numerous art-science collaborative projects that have been exhibited in museums throughout the world.