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  1. A Study of Bead Capture Efficiency on Listeria innocua and Escherichia coli Using Non-Specific and Specific Beads

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    21 Apr 2004 | Presentation Materials | Contributor(s): Erik Tseregounis

    2003 SURI Conference Proceedings

  2. Electronics From the Bottom Up: top-down/bottom-up views of length

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    17 Aug 2007 | Online Presentations | Contributor(s): Muhammad A. Alam

    When devices get small stochastic effects become important. Random dopant effects lead to uncertainties in a MOSFET’s threshold voltage and gate oxides breakdown is a random process. Even a concept as simple as “channel length” becomes uncertain. This short (20 min) talk, a footnote to the...

  3. Illinois ABE 446 Lecture 1: Introduction/What is nanotechnology?

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    11 Feb 2010 | Teaching Materials | Contributor(s): Kaustubh Bhalerao

  4. Quantum and Semi-classical Electrostatics Simulation of SOI Trigates

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    19 Feb 2008 | Tools | Contributor(s): Hyung-Seok Hahm, Andres Godoy

    Generate quantum/semi-classical electrostatic simulation results for a simple Trigate structure

  5. Searching for Reliable Information on the World Wide Web

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    04 Apr 2008 | Teaching Materials | Contributor(s): Elyse Rosenbaum

    This powerpoint presentation provides useful tips for children who are using the internet to find information for school projects and reports. The target audience is children in grades 4 through 8. A special focus is on websites that provide information about engineering.Uploaded by Omar...

  6. Nanoscale Transistors: Advanced VLSI Devices (Introductory Lecture)

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    20 Apr 2006 | Online Presentations | Contributor(s): Mark Lundstrom

    Welcome to the ECE 612 Introductory/Overview lecture. This course examines the device physics of advanced transistors and the process, device, circuit, and systems considerations that enter into the development of new integrated circuit technologies.

  7. On the Rise of an Electronic Species: Thoughts on the Impending Singularity

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    29 Nov 2007 | Online Presentations | Contributor(s): Kerry Bernstein

    The human brain is vastly more complex that our best supercomputers; yet it can be argued that both systems evolve towards common underlying solutions to fundamental compute problems. Biologically-inspired electronic technologies already are enabling new products, and inversely, nano-electronics...

  8. Linearized Boltzmann transport calculator for thermoelectric materials

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    11 Jul 2013 | Tools | Contributor(s): Je-Hyeong Bahk, Robert Benjamin Post, Kevin Margatan, Zhixi Bian, Ali Shakouri

    Simulation tool to calculate thermoelectric transport properties of bulk materials based on their multiple nonparabolic band structure information using the linearized Boltzmann transport equation

  9. Slides: Time-Dependent Perturbation Theory

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    10 Jul 2008 | Teaching Materials | Contributor(s): Dragica Vasileska, David K. Ferry

    www.eas.asu.edu/~vasileskNSF

  10. Exercise: MATLAB Tool Construction for Degenerate/Nondegenerate Semiconductors That Includes Partial Ionization of the Dopants

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    29 Jul 2008 | Teaching Materials | Contributor(s): Dragica Vasileska, Gerhard Klimeck

    This exercise teaches the students how to calculate Ec-Ef from charge neutrality for general Fermi-Dirac statistics and compensated semiconductors. As such it then allows the student to calculate temperature dependence of the electron and hole densities as well as the position of the Fermi...

  11. KIST/PU Design and Performance of Bioresponsive Nanocarriers with Tunable Reactivity for Drug and Gene Delivery

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    23 Oct 2007 | Online Presentations | Contributor(s): Dave Thompson

    Our lab has focused on the development of bioresponsive nanocarriers that are designed to release their cargo upon entry into acidic environments such as those found in cellular endosomes and sites of poor circulation. Computational methods have been used to design vinyl ether lipids of varying...

  12. NEMO 3D: Intel optimizations and Multiple Quantum Dot Simulations

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    03 Aug 2006 | Online Presentations | Contributor(s): Anish Dhanekula, Gerhard Klimeck

    NEMO-3D is a nanoelectronic modeling tool that analyzes the electronic structure of nanoscopic devices. Nanoelectronic devices such as Quantum Dots (QDs) can contain millions of atoms,. Therefore, simulating their electronic structure, can take up to several days. In order to simulate and analyze...

  13. From Semi-Classical to Quantum Transport Modeling: Quantum Transport - Usuki Method and Theoretical Description of Green's Functions

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    09 Aug 2009 | Teaching Materials | Contributor(s): Dragica Vasileska

    This set of powerpoint slides series provides insight on what are the tools available for modeling devices that behave either classically or quantum-mechanically. An in-depth description is provided to the approaches with emphasis on the advantages and disadvantages of each approach. Conclusions...

  14. Illinois ECE 440 Solid State Electronic Devices, Lecture 3: Energy Bands, Carrier Statistics, Drift

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    19 Aug 2008 | Online Presentations | Contributor(s): Eric Pop

    Discussion of scaleReview of atomic structureIntroduction to energy band model

  15. VEDA: Dynamic Approach Curves

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    15 Mar 2007 | Tools | Contributor(s): John Melcher, Shuiqing Hu, Steven Douglas Johnson, Daniel Kiracofe, Arvind Raman

    This tool is being replaced by VEDA 2.0. Use that tool instead.

  16. MSE 597G Lecture 7: Advanced Techniques for Molecular Dynamics Simulations

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    12 Nov 2008 | Online Presentations | Contributor(s): Alejandro Strachan

    Thermostats and barostats,Linear methods for energy and force calculations,Coarse graining or mesodynamics,Validation and Verification.

  17. Nanofactories - In - Situ Production of Therapeutic Genes...

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    27 Jul 2005 | Online Presentations | Contributor(s): James Leary

  18. SPMW Interplay between theory and experiment in AFM nanomechanical studies of polymers

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    30 Nov 2006 | Online Presentations | Contributor(s): Sergei Magonov, Sergey Belikov

    High-resolution imaging of surfaces and compositional mapping of heterogeneous materials are the main functions of atomic force microscopy (AFM) in studies of polymer materials. Compositional mapping is mostly based on differences of mechanical properties of the sample components yet quantitative...

  19. ME 597 Lecture 4: How to Make an STM

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    13 Oct 2009 | Online Presentations | Contributor(s): Ron Reifenberger

    Topics:Early SuccessesHow to Make an STM

  20. A Novel Diagnostic Assay Based On Nanomechanics

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    28 Jul 2005 | Online Presentations | Contributor(s): Marko Dorrestijn

    Micro-fabricated silicon cantilevers arrays offer a novel label-free approach where ligand-receptor binding interactions occurring on the sensor generate nanomechanical signals like bending or a change in mass that is optically detected in-situ. We report the detection of multiple unlabelled...