The 2009 NNIN REU Program

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The 2009 National Nanotechnology Infrastructure Network
Research Experience for Undergraduates Program
(2009 NNIN REU)
sponsored by the National Science Foundation, NNIN and Industry

The 2009 NNIN REU Interns at the Network-Wide Convocation, University of Michigan, August 2009. Edward Tang, Photographer.

Welcome from Prof. Sandip Tiwari, NNIN Director

The summer of 2009 was quite a successful time for the NNIN and its two REU programs. Seventy-four students participated in our Research Experience for Undergraduates (REU) Program, and 10 students, from the 2008 NNIN REU Program, participated in our International Research Experience for Undergraduates (iREU) Program.

This publication reflects the hard work of our interns, but also the dedication of the principal investigators, mentors, program coordinators and site staff. Taking on the challenge of completing comprehensive experi-mental research in ten weeks can be a very formative and defining experience for everyone involved, most especially the undergraduate intern. Our programs test the many skills of learning and applying that learning, and help determine the course of a student's life at a very critical stage when one is coming into one's own.

NNIN attempts to provide such an experience by bring- ing strong collaborations and interesting research problems in which undergraduate students can participate. Many of our interns get their first taste of advanced hands-on research as part of our program, and we work diligently to make this a positive exper-ience; focusing on advanced research and knowledge, seeking strong mentors and staff support, exposing our interns to a professional research environment, and having high expectations built into the research proj-ects, the convocation, and the final reports included here. In addition, we expect that at each site, students will enjoy the wider variety of research conducted by peers and other users across diverse disciplines of science and engineering within the unifying facilities.

My thanks to the staff, the graduate student mentors and the faculty for their participation and involvement. Particular thanks are due to Melanie-Claire Mallison and Lynn Rathbun at Cornell University, and Nancy Healy at Georgia Institute of Technology for their contributions in organizing the logistics of both programs, and many thanks to Sandrine Martin, Trasa Burkhardt and Brandon Lucas at the University of Michigan for organizing the August convocation.

I wish all our program participants the best wishes for future technical careers; the NNIN hopes to see you build on this summer's experience! Please keep in touch!

Sandip Tiwari
Director, NNIN

2009 NNIN REU Research Accomplishments

The complete book,
2009NNINreuRA.pdf,
a 6.3 MB file

The convocation proceedings,
2009NNINreuCONVO.pdf, a 618KB file

The 2009 NNIN REU Convocation Videos,
http://www.lnf.umich.edu/Events.aspx?id=108

Unless otherwise noted, the links on this page are to PDF files ranging in size from 524 KB to 6 MB.
Please contact Ms. Melanie-Claire Mallison if you have any questions or find any broken links.

Click here to get your free Adobe Reader Program. Adobe Acrobat Reader

2009 International REU Program Notes

The 2009 NNIN REU Staff and Interns, in html, with photographs (Coming Soon!)

2009NNINreuPhotoGallery.zip, (a 15MB zip file)

(Get the latest free Stuffit Expander at http://www.digitalriver.com/v2.0-img/operations/smicro/site/stuffit_freetrial/nopop/redirect.html.)

The 2009 NNIN REU Reports by Topic

Biological Applications, pages 2-41

Role of Reactive Oxygen Species in Nanotoxicity, page 2
   Sarah Connolly, Biochemistry and Microbiology, University of Florida
Microfluidic Single-Cell Assay Chip for Drug Efficacy Test, page 4
   Nicolas Andrew Shillingford Cordero, Microbiology, Cornell University
Nanotextured Surfaces: New Generation Bioelectronic Interfaces for Nanomedicine, page 6
   Ericka Cottman, Electrical Engineering, Virginia Commonwealth University
Nanoporous Surfaces: Bioelectric Interfaces for Pathogen Detection, page 8
   Lilian Gong, Biochemistry, Wellesley College
Nanostructured Scaffolds for Tissue Engineering Applications, page 10
   Nathaniel Hogrebe, Chemical Engineering, University of Dayton
Antimicrobial Effects of Metal Oxide Nanoparticles, page 12
   Angela K. Horst, Biochemistry, Clarke College
Optical Detection of Thrombus Formation within a Microfluidic Device using a Helium-Neon Laser as a Radiation Source, page 14
   Adam Kozak, Biomedical Engineering, University of Rochester
Modeling Intermediates in Prion Protein Fibril Formation, page 16
   Stephanie Lau, Chemistry, Wellesley College
Characterization of Gold Nanoparticles Functionalized with Thiolated Single-Stranded DNA, page 18
   Alexandra J. Machen, Chemical Engineering, University of Kansas
Development and Fabrication of a Micro-Microbial Fuel Cell, page 20
   Isaac Markus, Chemical Engineering, The Cooper Union for the Advancement of Science and Art
Single Walled Carbon Nanotubes as Nanopores for DNA Translocation, page 22
   Claire McLellan, Physics, Wake Forest University
Nanomechanical Properties of Motor Proteins, page 24
   Margaret Merritt, Biomedical Engineering, Brown University
Microfluidics Guided Self-Assembly of Magnetoliposomes, page 26
   Tiffany Moeller, Chemical Engineering, University of Nebraska
Using Molecular Self-Assembly for Surface Charged Monolayers to Control Bio-Assembly, page 28
   Theresia Monikang, Chemistry, Hampton University
Engineering Hcp1 to Bind DNA, page 30
   Keith Olson, Biochemistry and Psychology, Beloit College
Nano-Magnetic Particles for Cancer Diagnostics, page 32
   Barbara D. Raynal, Electrical Engineering, University of Notre Dame
Optimization and Bioconjugation of Silicon Nanowire Biosensors for Cancer Marker Detection, page 34
   Jacob Sadie, Electrical Engineering, Clemson University
Development of an Intravessel Xylem Probe for Viniculture and Forest Ecology, page 36
   Ellen Sedlack, Microelectronic Engineering, Rochester Insitute of Technology
Artificially-Manufactured Surface-Enhanced Raman Scattering-Active Nanoparticles for Cancer Diagnostics, page 38
   Sweta Sengupta, Biology and Computer Science, Emory University
Development of a Multiplex CARS Flow Cytometer for Label-Free, Real-Time Classification, page 40
   Hamsa Sridhar, Physics and Mathematics, Harvard College

Electronics, pages 42-65

Magnetron Sputtering and Characterization of Ag-Si for Infrared Photodetectors, page 42
   John Abrahams, Electrical Engineering and Physics, University of Maryland, College Park
The Cyclic Charging of Reduction-Oxidation Markers in Metal-Oxide-Semiconductor Capacitors, page 44
   Julie Bellfy, Chemical Engineering, Villanova University
Fabrication and Design of Nanowire Transistors, page 46
   Gabrielle Castillo, Materials Science and Engineering, Arizona State University
Design and Fabrication of Aluminum Nanoelectromechanical Switches, page 48
   Vivian Feig, Chemical Engineering, Columbia University
Plasmonic Focusing of Light, page 50
   Chelsea Frid, Materials Science and Engineering, Michigan State University
Innovative Imprint Lithography for Chip-to-Chip Connections, page 52
   Laura Gaskins, Chemical Engineering, Rice University
Integration of Gallium Nitride Nanowires with Silicon Circuits, page 54
   Lydia Kisley, Chemistry, Wittenberg University
Semiconductor Nanocrystal Inks for Printed Photovoltaics, page 56
   James Mueller, Chemical Engineering, University of Michigan - Ann Arbor
High-Aspect-Ratio Polyimide Pore Array Template for Thin Film Solar Cells, page 58
   Travis Rosmus, Chemistry, Saint Francis University
Optimization of Tunnel Diodes in Multi-Junction Solar Cells, page 60
   Alexander Sharenko, Materials Science and Engineering, Georgia Institute of Technology
Ohmic Contact Study for Gallium Nitride-Based High Electron Mobility Transistors and Ultra-Short N-Type THz Devices, page 62
   Ian Walsh, Applied Physics, Rice University
Sidewall Process for III-V MOSFET Fabrication, page 64
   Lorraine Weis, Engineering Physics, Franklin W. Olin College of Engineering

Materials, pages 66-101

Growth of CuIn(Ga)Se2 Thin Film Solar Cells, page 66
   Menooa Badalian, Computer Engineering, Glendale Community College
Zn Diffusion for High Sensitivity InGaAsN Photodetectors, page 68
   Jasmine Banks, Electrical Engineering, Virginia Commonwealth University
Graphene Synthesis by CVD on Copper Substrates, page 70
   Mark Borysiak, Chemical Engineering, Ohio State University
Mechanical Properties of Atomic Layer Deposited Tungsten, page 72
   Steven Brown, Physics and Mathematics, University of Minnesota
Photon-Enhanced Crystallization Kinetics and In Situ High Temperature Conductivity Studies in Ultra-Thin La0.6Sr0.4Co0.8Fe0.2O3-delta Films, page 74
   Tyler Cain, Materials Science and Engineering, University of Illinois at Urbana-Champaign
Annealing Thin-Film Block Copolymers to Achieve Ordered Morphologies, page 76
   Kevin Donaher, Materials Science and Engineering, Simon's Rock College of Bard
Pattern Deposition of Nanoparticles of Different Shapes by an Aerosol Route, page 78
   Richard Frnka, Math/Physics/Computer Science, Eckerd College
Growth of Silicon, Germanium, SixGe1-x and Various Polytypes of SiC Nanowires, page 80
   Keara Harris, Electrical Engineering, Hampton University
Materials for CZTS Photovoltaic Devices, page 82
   Rachel Hoffman, Chemical Engineering, Cornell University
Metallization for High Temperature Electronics, page 84
   Katherine C. Kragh, Engineering Physics, Rose-Hulman Institute of Technology
Characterization of Thermally Induced Bilayer Distortions, page 86
   Arjunen Ryan Kutayiah, Physics, The City University of New York, Hunter College
Characterization of the Diffusivity of Conductive Polymers in Nanochannel Confinement, page 88
   Jamal Lottier Molin, Computer Engineering, University of Maryland, Baltimore County
ALD of High-k Gate Dielectrics for Thin Film Transistors, page 90
   Du Nguyen, Physics, Michigan State University
Characterization and Acid Diffusion Studies of Cyclodextrin and its Carborane Inclusion Complex, page 92
   Amanda Oehrlein, Chemistry, Hamline University
Elemental Analysis of Ge-SixGe1-x Core-Shell Nanowire Heterostructures, page 94
   Arrielle Opotowsky, Physics and Astronomy, Louisiana State University
Visible Optical Properties of Pulse-Laser-Melted Silicon with S, Se, Te, B, P and As, page 96
   Si Hui Athena Pan, Physics, Brandeis University
Synthesis and Properties of Manganese Oxide Nanoparticles for Environmental Applications, page 98
   Alexandra Rutz, Chemistry and Molecular & Cellular Biology, University of Illinois at Urbana-Champaign
Large-Area Chemical Vapor Deposition of Graphene over Thin Films of Cobalt, page 100
   Devanand Sukhdeo, Electrical Engineering, Columbia University

Mechanical Devices, pages 102-109

Fabricating Mechanically Adjustable Single Molecule Electrical Contacts, page 102
   Matthew T. Hershberger, Physics, Bethel College
Horizontally Aligned Carbon Nanotube Composite Beams, page 104
   Alexander Hryn, Materials Science and Engineering, University of Illinois at Urbana-Champaign
Microfabrication of Heaters and Resistance Thermal Detectors for Simulation of Hotspots, page 106
   Julia Sokol, Mechanical Engineering, Harvard University
Fracture at the Nanoscale, page 108
   Denys Zhuo, Material Science and Engineering, Massachusetts Institute of Technology

Optics and Opto-Electronics, pages 110-125

Fabrication and Characterization of Nanobeam Resonators with Waveguides, page 110
   Arolyn Conwill, Physics, Pomona College
Fabrication of Grating Couplers and Optical Waveguide Sensors, page 112
   Edgar Garay, Electrical Engineering and Physics, Florida International University
3D Photonic Crystals Fabricated Through Direct Laser Writing, page 114
   Meredith Henstridge, Physics, Xavier University
Patterning Soft Materials with Light-on-Tip, page 116
   Richard Purvis, Engineering Physics, Tulane University
Hybrid Silicon Microring Lasers, page 118
   Daryl Spencer, Engineering Physics, University of Tulsa
Fabrication of Single Crystal Si Photonic Crystals, page 120
   Matthew Strathman, Electrical Engineering, Montana State University
Fabrication of Silicon Nitride Waveguides, page 122
   Takia Wheat, Chemistry, Jackson State University
Novel Fabrication Method for a High-Q Capillary-Based Whispering-Gallery-Mode Biosensor, page 124
   Michael Zakrewsky, Chemical Engineering, Rensselaer Polytechnic Institute

Physics and Nanostructure Physics, pages 126-135

Space-Charge Limited Current Calculations in Nanowires, page 126
   Ian Braly, Chemical Engineering, Oregon State University
Raman Topography Studies of Eutectic Systems of Strontium Ruthenate and Ruthenium, page 128
   Eric Hao, Engineering, University of California, Berkeley
Fabrication of Sub-Micron Lateral Spin Valves, page 130
   Alayne M. Lawrence, Chemical Engineering, Xavier University of Louisiana
Magneto-Transport in Photoexcited Diamond, page 132
   Sarah Reiff, Physics, Marquette University
Fabrication of a Stable Tunable Fabry-Perot Interferometer in the Fractional Quantum Hall Regime, page 134
   Paden Roder, Physics, Grinnell College

Process and Characterization, pages 136-149

Imaging and Characterization of Carbon Nanotube Growth and Transfer, page 136
   Stephanie Bojarski, Materials Science and Engineering, Lehigh University
Fabrication and Characterization of Catalytic Nanomotors, page 138
   Christine Burdett, Chemical Engineering, North Carolina State University
Structure Optimization of Semiconducting Nanowires with AFM Direct-Write, page 140
   Jacqueline Collette, Materials Science and Engineering, Arizona State University
Atomic Layer Deposition on Surfaces Modified with Thin Interfacial Organic Layers, page 142
   Scott Isaacson, Chemical Engineering, University of Minnesota
Process Development for a Traveling Wave Terahertz Detector, page 144
   Benjamin D. McPheron, Electrical Engineering, Ohio Northern University
Fabrication of Nanohole Arrays with Nano-Imprint Lithography, page 146
   Axel Palmstrom, Chemical Engineering, University of California, Santa Barbara
DNA Electrophoresis in Sparse Ordered Obstacle Arrays, page 148
   Alyssa Terry, Biomedical Engineering, Mississippi State University

2009 NNIN iREU: The Second Year Program, pages 150-169

Photoconductivity and Photolumniescence of Al0.3Ga0.7As/GaAs p-i-n Junction Quantum Well Solar Cells, page 150
   David J. Christle, Physics and Mathematics, University of Minnesota-Twin Cities
Preparation of Collagen-Glycosaminoglycan Scaffolds Using Ice Templates for Tissue Engineering, page 152
   Sarah Grice, Mechanical Engineering, University of Maryland, College Park
Electrochemical Deposition of Polyaniline on Nanoelectrode CrossBar Structures, page 154
   Jose Guevarra, Mechanical Engineering, University of California, Santa Barbara
Charge Transfer of Recombinant Proteins, page 156
   Jennifer Hou, Molecular and Cellular Biology, Johns Hopkins University
Effects of Immobilized Oligoarginine Peptides on Cellular Uptake of Gold Nanoparticles, page 158
   Jillian Kiser, Mechanical Engineering, Franklin W. Olin College of Engineering
High-k Gate Stack for d-Dot FET, page 160
   Kishore Padmaraju, Electrical Engineering and Physics, University of Rochester
Resistive Switching in Ag/Cu Doped Methyl-Silsesquioxane for Future Memory Applications, page 162
   Adam C. Scofield, Electrical Engineering, Rensselaer Polytechnic Institute
Growth and Characterization of Graphene on Silicon Carbide, page 164
   Julie Stiver, Chemical Engineering, University of Massachusetts, Amherst
Study on Structural and Electronic Properties of Heavily Al-Doped Zinc Oxide Thin Films Deposited by Pulsed Laser Deposition, page 166
   Arun Swain, Electrical and Computer Engineering, Cornell University
Detection of DNA Hybridization Using a Field-Effect Device, page 168
   Justine Yoon, Biomedical Engineering, Rensselaer Polytechnic Institute

INDEX, in html; pages 171-174

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