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ACS¹ú¼ÊÑÐÌÖ»áµÄ»áÒéPPT¼°Â¼Òô Ö÷Òª°üÀ¨Ò»ÏÂÄÚÈÝ£º£¨¿ÉÔÚÏßÌý¡¢¿´£¬Ò²¿ÉÏÂÔØ£© 010 Frontiers in Imaging Biological Nanostructures 010-1 Samuel T. Hess: Intracellular nanoscale imaging of molecular positions and anisotropies 010-2 Nicholas A. Kotov: Imaging, sensing, and cancer treatment with bioconjugates of nanowires and nanorods 010-3 Debansu Chaudhuri: Toward subdiffraction transmission microscopy of diffuse materials using nanoplasmonic hot spot beacons 010-4 Piercen Oliver: Manipulation and detection of biopolymers using magnetic-luminescent microspheres 010-5 Wael Mamdouh: 2-D Supramolecular nanopatterns formed by DNA/RNA nucleobase molecules at the liquid-solid interface 020 Nano Meets Neuro: Novel Challenges for Nanoscience in Probing Brain Chemistry 020-1 Jay L. Nadeau: Strategies for optical voltage-sensing in neuronal networks 020-2 Jay L. Nadeau: A biomolecular photodiode for imaging of cell membrane potential 030 Nano Meets Neuro: Novel Challenges for Nanoscience in Probing Brain Chemistry 030-1 Heather Kalish: Microchip analysis of neuronal secretions by immunoaffinity capillary electrophoresis 040 Genetically Designed Molecular Materials 040-1 Mehmet Sarikaya: Biohesion: Coupling synthetic and biological entities using genetically engineered peptides 040-2 Tiffany R. Walsh: Modeling binding affinity at peptide-surface interfaces: The role of mutations 040-3 Paul Mulheran: Mechanisms and dynamics of protein clustering on a solid surface 040-4 Christopher R So: Mobility of inorganic binding peptides on solid surfaces 050 Keynote Address 050-1 Angela M. Belcher: From nature and back again: Giving new life to materials for energy 060 Molecular Rotors and Motors 060-1 Josef Michl: Toward designed surface ferroelectricity 060-2 Ashleigh E. Baber: Thermal and mechanical activation of single-molecule thioether rotors 060-3 Kevin F. Kelly: Analysis of thermally-induced and photoactivated motion by STM 060-4 Anatoly B. Kolomeisky: Thermally-driven nanocars and molecular rotors: What can we learn from molecular dynamics simulations 070 Chemical Methods of Nanofabrication 070-1 John A. Rogers: Techniques for molecular scale and 3-D nanofabrication 070-2 Paul S. Weiss: Nanoscale chemical patterning 070-3 Janice Reutt-Robey: Pattern formation in molecular semiconductor films 070-4 Mark C. Hersam: Chemically tailored carbon-based nanoelectronic materials 070-5 YuHuang Wang: Cloning and manipulation of carbon nanotubes 080 Molecular Rotors and Motors 080-1 Migual A Garcia-Garibay: Crystalline arrays of molecular gyroscopes: Toward the limit of barrierless rotation in solid state materials 080-2 Raymond Dean Astumian: Generalized fluctuation-dissipation relations for Brownian sieves and molecular machines 080-3 Roman Boulatov: Maximum force obtainable from a molecular photoactuator 080-4 Mark Haidekker: Molecular rotors: TICT fluorophores with mechanosensitive properties 090 The Kavli Foundation ACS Presidential Plenary Symposium on Challenges in Nanoscience 090-1 George M Whitesides: Nanotechnology in adolescence 090-2 Vicki L. Colvin: Nanotechnology in the environment: Safety by design 090-3 James E. Hutchison: Greener nanoscience: A proactive approach to advancing applications and reducing implications of nanotechnology 100 Genetically Designed Molecular Materials 100-1 James Kirkpatrick: Novel materials in regenerative medicine: A life science perspective 100-2 J. Moradian-Oldak: Structural flexibility in amelogenin and control of tooth enamel reconstruction 100-3 Vasif Hasýrcý: Collagen and polyester-based scaffolds for tissue engineering 110 Genetically Designed Molecular Materials 110-1 Thomas LaBean: Combining DNA, peptide, and inorganic materials in programmable molecular assemblies 110-2 Carston R. Wagner: Toward self-assembling protein nanostructures 110-3 Qian Wang: Viruses and their assemblies for tissue engineering applications 110-5 Kemal Sonmez: Modeling of organic-inorganic interface functionalities via hierarchical directed evolution 120 Priestley Address 130 Chemical Methods of Nanofabrication 130-1 Duncan Graham: Functionalized nanoparticles and surfaces for bioanalysis using SERRS 130-2 Charles Black: Chemical Methods of Nanofabrication µØÖ·£ºhttp://www.softconference.com/acschem/slist.asp?C=2763 ÏÂÔØ·½·¨£ºµã»÷ÒªÏÂÔصļÒô£¬½øÈëÔÚÏßÊÔÌýµÄÒ³Ã棬ÔÚ²¥·ÅÆ÷µÄ×óÉϽÇÓÐÒ»¸öÏÂÀ²Ëµ¥£¬×îºóÒ»ÏîÊÇ¡°download¡±£¬µã»÷ÏÂÔؼ´¿É¡£ [ Last edited by kang0329 on 2009-5-4 at 18:29 ] |
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