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  • Exploring the Bio-Nano Interface for Recognition and Assembly of Electronic Materials

    Thu, Jan 24, 2008 @ 12:45 PM

    Mork Family Department of Chemical Engineering and Materials Science

    Conferences, Lectures, & Seminars


    Graduate SeminarbyDr. Jennifer N. ChaIBM Almaden Research Center
    San Jose, CA Abstract: As nanoelectronic device features shrink towards a critical limit, new research directions have been sought to resolve the resultant technological issues in a cost-effective manner. The ability of Nature to synthesize and assemble materials with high fidelity and precision has provided a potential means of overcoming these formidable challenges. Over the past few years, there have been numerous and extensive efforts to both understand the biological mechanisms for building inorganic and organic architectures and use biological systems to assemble nanoscale materials. New applications of current genetic engineering techniques have also been developed to overcome the difficulties of interfacing biology with non-biological substrates, enabling the use of biomolecular systems for addressing particular challenges in nanoelectronics. The first part of this talk will highlight some of the mechanisms of biomineralization and will in particular focus on the way biosilicates are both synthesized and assembled in Nature. One of the inherent reasons to understand how inorganic materials are produced in living systems is that all of these processes occur under ambient conditions, even those materials that are produced industrially under high temperature and pressure or at extreme pH. I will describe the mechanism by which one biological organism synthesizes highly ordered silica structures at neutral pH and how one can apply these mechanisms to biomimetic approaches using synthetic block copolymers. The understanding of how to chemically control both nucleation and growth of oxides at the nanometer scale led to the synthesis of highly-ordered, two-dimensional nanopatterned ceramic thin films that were used as nanoscale etch masks for producing nanoparticles of phase change materials.A significant amount of research at IBM has also been devoted to exploring nanowires and single walled carbon nanotubes (CNTs) as alternatives to silicon technology. Despite the unique electronic and physical properties of CNTs, however, there exist numerous technological challenges; in particular, the production of entirely semiconducting CNTs of a single or narrow range of band-gaps. The second part of this talk will focus on our recent efforts at the use of DNA to disperse CNTs and bio-combinatorial libraries to discover unique amino acid sequences that can bind a subset of dispersed CNTs. Specific biomolecular recognition of particular nanomaterials that demonstrate unique physical characteristics may impact applications ranging from nanoelectronics to nanomedicine. Thursday, January 24, 2008
    Seminar at 12:45 p.m.
    OHE 122
    The Scientific Community is Cordially Invited.

    Location: Olin Hall of Engineering (OHE) - 122

    Audiences: Everyone Is Invited

    Contact: Petra Pearce Sapir

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