Developments at the Nano /Bio Interface Point to Scientific Opportunities
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Developments at the Developments at the Nano/Bio InterfaceNano/Bio Interface
Point to Scientific OpportunitiesPoint to Scientific Opportunities
Developments at the Developments at the Nano/Bio InterfaceNano/Bio Interface
Point to Scientific OpportunitiesPoint to Scientific Opportunities
Functional Molecules and Hybrid Nanostructures
Single Molecule Motion and Complexity
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Peptide Complexes Designed for Optoelectronic Function
Saven, DeGrado, Therien, J. Am. Chem. Soc. 2004
Saven, DeGrado, Therien,(2008)
Saven, DeGrado, Therien (2008)
Saven, DeGrado, Therien, Blasie, J. Am. Chem. Soc. 2007
Blasie, DeGrado, Therien, Saven J. Am. Chem. Soc. (2008)
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Interface Mediated Behavior in Hybrid Nanostructures
Functional Coxsackie virus-Adenovirus Receptor - Nanotube Hybrid for Detection of Viral Protein (Knob)
Johnson and collaborators, Nano Letters 2007J. Phys. Chem. B 2009
Plasmon Induced Electronic Transport in Functionalized Nanoparticles
Bannerjee et al in pressNanoLetters 08
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Ferroelectric Nanolithography Extended to Flexible Substrates
The ultimate goal is to assemble multiple components of diverse properties into complex configurations. Ferroelectric Nanolithography achieves this by controlling local electronic structure on substrates that influences electrontransfer at the surface.
Rankin, et al ACS Nano 2008
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300 400 500 600 700 800
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Dark Red Green Blue
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Absorption in the porphyrin Primary and coupled surface plasmons
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V- + V- + V- +
Plasmon Induced Electronic Transport in Molecules
Bannerjee, et al in press
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Plasmonics Molecular Electronics
SERS single molecule propertieslight guiding switchingcontrol optical properties of organics sensingmeta materialstargeted therapeutics
Harry Atwater, Nature Materials 2003
Mark Reed’s Group
http://www.eng.yale.edu/reedlab/
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New mechanism for transduction of optical energy to electrical energy
Optical antenna effect focuses light to the nanoparticle junction increasing absorption efficiency, enhancement can be factors of 105 or more.
Absorption wavelengths/energies can be tuned by choice or design of the molecule and morphological control of nanoparticle array
+
Ghosh, S.K. and T. Pal,. Chemical Reviews, 2007. 107(11): p. 4797-4862
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Protein Motion at the Single Molecule Level: Myosin V Processivity
Science 2005, 2007
Goldman Group
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Protein Motion at the Single Molecule Level: Myosin V Processivity
Science 2005, 2007
Goldman Group
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Protein Motion at the Single Molecule Level: Myosin V Processivity
Science 2005, 2007
Goldman Group
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Protein Motion at the Single Molecule Level: Myosin V Processivity
Science 2005, 2007
Goldman Group
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Protein Motion at the Single Molecule Level: Myosin V Processivity
Science 2005, 2007
Goldman Group
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Medalia et al. 2002 Science. 298:1209-13.
Grn = tubules; Red = actin
Complexity of the Cytoplasm and Cytoskeleton
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V
Unhindered Motion of Myosin Motors
Goldman, Bau, Arsenaut
Arsenault, M., Zhao, H., H., Purohit, P., Goldman, Y., and Bau, H. H., 2007, Biophysical Journal 93, L42-L44
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Glass
ActinGold Electrode
1 m, Myosin-Coated Bead
~2 m
Increased Complexity in Protein Environment
Goldman, Bau, ShumanScience 2008J. Biophysics 2009,
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Whole Lotta Shakin’
Drosophila S2 cell with microtubules shown in red and peroxisomes in green.
Recently developed imaging technology allows us to look inside living cells with unprecedented spatial and time resolution (nanometers and milliseconds). Extending this method to two colors allowed us to perceive previously hidden relations between cell components. For example, our work documented correlation between the motions of distant call cargos, indicating that they were both attached to the same active structural element (a microtubule).
IM Kulic and PC Nelson, Europhys Lett 2007; IM Kulić, AEX Brown, H Kim, C Kural, B Blehm, PR Selvin, PC Nelson and VI Gelfand, The role of microtubule movement in bidirectional organelle transport. PNAS 2008.
We have exquisite information about the static structures of cellular components, but still little understanding of how they orchestrate their many dynamic functions. The understanding now beginning to emerge will influence cell biology over the coming years.
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Scientific OpportunitiesBiomolecule platforms and Hybrid nanostructures offer pathways to engineered function
pathogen detection protein sensorsoptoelectronic devicesenergy harvesting strategies
Single molecule studies in the context of realistic environments reveal complex behavior
cell division (cancer) disease targetscell motion disease targetslive proteomics: in situ protein synthesis
Probes of nanoscale phenomena are poised for another revolution