 | Nanotech 2007 Vol. 4
Technical Proceedings of the 2007 NSTI Nanotechnology Conference and Trade Show, Volume 4
Chapter 3: Nanofabrication |
| - | DIRECT: An Efficient Optimization Scheme for Mask Generation Using Inverse Lithography |
| | W. Xiong, M-C Tsai, J. Zhang and Z. Yu |
| | Tsinghua University, CN |
| - | Resist Mask Designs for Quantum Dot Transistor Using E-Beam Nanolithography |
| | U. Hashim, S. Sutikno and Z.A.Z. Jamal |
| | Northern Malaysia University College of Engineering (KUKUM), MY |
| - | Femtosecond laser micromachining of IC for semiconductor defect analysis |
| | M. Halbwax, T. Sarnet, J. Hermann, Ph. Delaporte, M. Sentis, L. Fares and G. Haller |
| | LP3 UMR CNRS 6182, FR |
| - | Numerical Simulation of NIL Process Based on Continuum hypothesis |
| | S.M. Kim, Y.S. Woo, D.E. Lee and W.I. Lee |
| | Seoul Nat'l Univ., KR |
| - | Nanoimprint Mold Manufacturing with Focused Ion Beam |
| | M. Chung, B.R. Huang, M.H. Weng, C.S. Fu, Y.Y. Chang, S.W. Lai, J.M. Chiou, Y.C. Chen and Y.H. Tzeng |
| | Southern Taiwan University of Technology, TW |
| - | Nanostructuration of sol-gel thin films |
| | C. Peroz, V. Goletto, M. Foresti, C. Heitz, L. Le Gratiet, E. Barthel and E. Sondergard |
| | Laboratoire mixte CNRS/Saint-Gobain, FR |
| - | Fabrication of Perforated Membranes in Polymers by Imprint Lithography |
| | A. Roychowdhury and S. Park |
| | Louisiana State University, US |
| - | Synthesis and Characterizations of ZnO Nanorods Arrays for Solar Cell and Chemical Sensor Applications |
| | O. Lupan and L. Chow |
| | University of Central Florida, US |
| - | Multifunctional Materials Based on Chitosan, Globular Protein and Gold Nanoparticles |
| | E. Indrea, S. Dreve, I. Bratu, G. Mihailescu, L. Olenic, G. Tomoaia, A. Mocanu, O. Horovitz and M. Tomoaia-Cotisel |
| | Babes-Bolyai University of Cluj-Napoca, RO |
| - | Parallel Pd Nanoribbons by Spontaneous Organization of Pd Nanoparticles |
| | O. Taratula, A.M. Chen, J. Zhang, J. Chaudry, I. Barnerjee and H. He |
| | Rutgers-Newark, The State University of New Jersey, US |
| - | Economical Approaches to Clean Space |
| | C. Rossrucker |
| | Abbie Gregg, Inc., US |
| - | Simulation of Virtual Nanoparticle tracking using calculated forces for an Atomic Force Microscope and Optical Tweezers |
| | S.N. Dwivedi, S. Kode and P.G. Ikonomov |
| | Universtiy of Louisiana, Lafayette, US |
| - | 1D transition metal oxide materials: preparation and applications |
| | T. Tätte, M. Paalo, R. Talviste, V. Kisand, K. Saal, U. Mäeorg, A. Lõhmus and I. Kink |
| | University of Tartu, EE |
| - | MOS Structures Containing Amorphous Silicon Nanoparticles for Application in Memory Devices |
| | N. Nedev, M. Stoytcheva, D. Nesheva, E. Manolov, R. Brüggemann, Z. Levi, R. Zlatev, B. Valdez and L. Alvarez |
| | Universidad Autónoma de Baja California, MX |
| - | Electrostatic Printing of CNT Liquid Toners |
| | R. Detig, D. Eberlein and M. Finzi |
| | Electrox corp., US |
| - | Fabrication and characterization of Alq3 electrically actuated nanospring arrays |
| | G.D. Dice and M.J. Brett |
| | University of Alberta, CA |
| - | Densification and Grain Growth During the Sintering of Nanoscale SiC |
| | M. Bothara, S.J. Park, R.M. German, T.S. Sudarshan, R. Radhakrishnan and S.V. Atre |
| | Oregon Nanoscience & Microtechnologies Institute, US |
| - | Sonochemical Coating of TiC nanoparticles on expandable polymeric microspheres, Thermal & Mechanical properties of microspheres/epoxy nanocomposites |
| | V.K. Rangari, T.A. Hassan, Q. Mayo T. Watson and S. Jeelani |
| | Tuskegee University, US |
| - | Novel Approaches for Functional Patterns and Microfluidic Synthesis |
| | K. Choi |
| | Bell Labs, US |
| - | Fabrication of Nanoparticulate Inks for Applications in Printable Electronics |
| | A. Reindl, S. Aldabergenova, E. Altin, G. Frank and W. Peukert |
| | Friedrich-Alexander University, DE |
| - | Piezoelectric Inkjet Print Head Technology for TFT-LCD Panel Fabrication |
| | T. Chen |
| | Trident - an ITW company, US |
| - | Growth and Engineering of High Aspect-Ratio AAO Templates Integrated on Silicon Substrates |
| | S. Choi and M. Daugherty |
| | Enable IPC Corporation, US |
| - | Responsive Hydrogels as Model Materials to Study the Deformation Behavior of Patterned Polymer Nanostructures |
| | V.R. Tirumala, C.M. Stafford, R. Huang, E.K. Lin and L.E. Ocola |
| | National Institute of Standards and Technology, US |
| - | Title: Nano/micro-structures formation driven by local protonation of polymer thin films via dip-pen nanolithography |
| | C. Maedler, S. Chada, A. La Rosa and M. Yan |
| | Portland State University, US |
| - | Electroluminescence from Surface Oxidized Silicon Nanoparticles Randomly Dispersed within a Polymer Matrix |
| | R.K. Ligman, L. Mangolini, U. Kortshagen and S.A. Campbell |
| | University of Minnesota, US |
| - | Electroluminescence of ZnO Nanowire/p-GaN Heterojunction Light Emitting Diodes |
| | X. Wang, J.J. Cole and H.O. Jacobs |
| | University of Minnesota, US |
| - | Monolayer to Multilayers Nanostructural Evolution in N type Oligothiphenes: Implications for OFET Performance |
| | G.R. Dholakia, A. Facchetti and T.J. Marks |
| | ELORET NASA Ames Research Center, US |
| - | Parylene Nanospheres, Nanotubes & Nanocoatings for Medical and Electronics Applications |
| | R. Kumar and A. Greiner |
| | Specialty Coating Systems, US |
| - | Development of Nanostructures, Nanodevices, Nanocomposites, and Hierarchical Nanocomposites at Hawaii Nanotechnology Laboratory |
| | M. Ghasemi-Nejhad and A. Cao |
| | University of Hawaii at Manoa, US |
| - | Influence of Stress and Temperature on the Microstructure Stability of Nanocrystalline Materials |
| | R.K. Rajgarhia, S-W. Koh, D. Spearot, A. Saxena, P. Selvam and R. Tummala |
| | University of Arkansas, Fayetteville, US |
| - | Grain Size Distribution in CoCrPtO-Based Perpendicular Magnetic Recording Media |
| | F. Hossein-Babaei, U. Kwon and R. Sinclair |
| | Stanford University, US |
| - | 400-900 nm Light Emitting Silicon Nanoparticles |
| | R.W. Liptak, X.D. Pi, U. Kortshagen and S.A. Campbell |
| | University of Minnesota, US |
| - | Quantum Correction for the Current-Based One-Particle Monte-Carlo Method |
| | S.C. Brugger, A. Wirthmueller and A. Schenk |
| | ETH Zürich, CH |
| - | Single Election Trapping in Nanoscale Transistors; RTS(Random Telegraph Signals) and l/f Noise |
| | L. Forbes, D.A. Miller and M.Y. Louie |
| | Oregon State University, US |
| - | Nanoscale hydrophobic coatings for the separation of liquid mixtures |
| | P. Truman, R. Frenzel, N. Longari, P. Uhlmann and M. Stamm |
| | Institute of Polymer Research, DE |
| - | Utilizing PRINTTM Technology to Create Precision Nanopatterned Films |
| | G. Denison Rothrock, J. Rolland and R. Henn |
| | Liquidia Technologies, US |
| - | The Si-tag for Immobilizing Proteins on a Silicon Device |
| | A. Kuroda |
| | Hiroshima University, JP |
| - | Low Temperature Nanolayers of Metal Oxides By MVD |
| | B. Kobrin, N. Dangaria and J. Chinn |
| | Applied Microstructures, Inc, US |
| - | From Particle Self-Assembly to the Creation of Biologically Relevant Nanopatterns |
| | T.M. Blättler, A. Binkert, E. Reimhult, M. Textor and J. Vörös |
| | ETH Zurich, CH |
| - | Manufacturable nanoscale membranes – material development and biological separations |
| | T.R. Gaborski, C.C. Striemer, J.L. Snyder, D.Z. Fang, P.M. Fauchet and J.L. McGrath |
| | University of Rochester, US |
| - | Nano-Patterned Surfaces Enhance Immunoreaction Efficiency |
| | A. Valsesia, I. Mannelli, P. Colpo, F. Bretagnol, G. Ceccone and F. Rossi |
| | European Commision Joint researcc Center, IT |
| - | Multifunctional Bio-Nano Patterns Derived from Colloidal Self-Assembly as Model Surfaces to Study Antigen-Antibody Interactions |
| | S. Krishnamoorthy, J.P. Wright, O. Worsfold, T. Fujii and M. Himmelhaus |
| | Fujirebio, Inc., JP |
| ISBN: | 1-4200-6376-6 |
| Pages: | 768 |
| Hardcopy: | $199.99 |
|
| Order: | Mail/Fax Form |
| Special: | 3 CD Set — 15% off with Free Shipping |
| Up | |
