Tags: research seminar

Resources (301-320 of 328)

  1. Micromechanical Biosensors and their Integration with Aptamer-Based Receptor Molecules

    26 Jul 2004 | | Contributor(s):: Cagri Savran

    Micromechanical Biosensors and their Integration with Aptamer-Based Receptor Molecules

  2. Synthesis & Performance of Biofunctional Organic Interfaces for Sensing, Protein Crystallization and Drug Delivery

    26 Jul 2004 | | Contributor(s):: Dave Thompson

    Synthesis & Performance of Biofunctional Organic Interfaces for Sensing, Protein Crystallization and Drug Delivery

  3. Exploiting the Electronic Properties of Proteins: An Approach to Nanoscale Electronics

    26 Jul 2004 | | Contributor(s):: Ron Reifenberger

    Exploiting the Electronic Properties of Protiens: An Approach to Nanoscale Electronics

  4. Sizing DNA with Artficial Nanopores

    26 Jul 2004 | | Contributor(s):: Aleksei Akisimen

    Sizing DNA with Artficial Nanopores

  5. Modified Nucleic Acids

    26 Jul 2004 | | Contributor(s):: Don Bergstrom

    Modified Nucleic Acids

  6. DNA Self Assembly

    26 Jul 2004 | | Contributor(s):: Chengde Mao

    DNA Self Assembly 

  7. NASA INAC Overview

    26 Jul 2004 | | Contributor(s):: David Janes

    NASA INAC Overview

  8. NSF NCN Overview

    26 Jul 2004 | | Contributor(s):: Mark Lundstrom

    NSF NCN Overview

  9. Modeling Biological Ion Channels as Nanoscale Devices

    26 Jul 2004 | | Contributor(s):: Trudy van der Straaten

    Modeling Biological Ion Channels as Nanoscale Devices

  10. Birck Nanotechnology Center Overview

    26 Jul 2004 | | Contributor(s):: George B. Adams III

    Birck Nanotechnology Center Overview

  11. Faster Materials versus Nanoscaled Si and SiGe: A Fork in the Roadmap?

    20 Apr 2004 | | Contributor(s):: Jerry M. Woodall

    Strained Si and SiGe MOSFET technologies face fundamental limits towards the end of this decade when the technology roadmap calls for gate dimensions of 45 nm headed for 22 nm. This fact, and difficulties in developing a suitable high-K dielectric, have stimulated the search for alternatives to...

  12. Control of Exchange Interaction in a Double Dot System

    05 Feb 2004 | | Contributor(s):: Mike Stopa

    As Rolf Landauer observed in 1960, information is physical. As a consequence, the transport and processing of information must obey the laws of physics. It therefore makes sense to base the laws of information processing and computation on the laws of physics and in particular on quantum...

  13. Digital Electronics: Fundamental Limits and Future Prospects

    20 Jan 2004 | | Contributor(s):: Konstantin K. Likharev

    I will review some old and some recent work on the fundamental (and not so fundamental) limits imposed by physics of electron devices on their density and power consumption.

  14. A Personal Quest for Information

    19 Feb 2004 | | Contributor(s):: Vwani P. Roychowdhury

    This talk will report results and conclusions from my personal investigations into several different disciplines, carried out with the unifying intent of uncovering some of the fundamental principles that govern representation, processing, and the communication of information. The specific...

  15. Nanoelectronics and the Future of Microelectronics

    22 Aug 2002 | | Contributor(s):: Mark Lundstrom

    Progress in silicon technology continues to outpace the historic pace of Moore's Law, but the end of device scaling now seems to be only 10-15 years away. As a result, there is intense interest in new, molecular-scale devices that might complement a basic silicon platform by providing it...

  16. Quantum-dot Cellular Automata

    24 Nov 2003 | | Contributor(s):: Craig S. Lent

    The multiple challenges presented by the problem of scaling transistor sizes are all related to the fact that transistors encode binary information by the state of a current switch. What is required is a new paradigm, still capable of providing general purpose digital computation, but which can...

  17. Bio-nanotechnology: Implications for More Effective Tissue Engineering Materials

    06 Mar 2003 | | Contributor(s):: Thomas J. Webster

    Nanotechnology can be defined as using materials and systems whose structures and components exhibit novel and significantly changed properties by gaining control of structures at the atomic, molecular, and supramolecular levels. Although many advanced properties for materials with constituent...

  18. Nanoelectronic Scaling Tradeoffs: What does Physics Have to Say?

    23 Sep 2003 | | Contributor(s):: Victor Zhirnov

    Beyond CMOS, several completely new approaches to information-processing and data-storage technologies and architectures are emerging to address the timeframe beyond the current SIA International Technology Roadmap for Semiconductors (ITRS). A wide range of new ideas have been proposed for...

  19. Electronic Transport in Semi-conducting Carbon Nanotube Transistor Devices

    16 Oct 2003 | | Contributor(s):: Joerg Appenzeller

    Recent demonstrations of high performance carbon nanotube field-effect transistors (CNFETs) highlight their potential for a future nanotube-based electronics. Besides being just a nanometer in diameter, carbon nanotubes offer intrinsic advantages if compared with silicon that are responsible for...

  20. Quantum Electromechanical Systems: Are we there yet?

    05 Feb 2004 | | Contributor(s):: Andrew Cleland

    Electrons moving in a conductor can transfer momentum to the lattice via collisions with impurities and boundaries, giving rise to a fluctuating mechanical stress tensor. Driving electrons out of equilibrium by applying the voltage across the conductor, one may control this electromechanical noise.