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Accepted Poster Abstracts
Poster Session A |
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| A1 | Bogunovic Lukas Bielefeld University, DE |
Enantioselective Separation of chiral microparticles in a microfluidic device |
| A2 | Viefhues Martina Bielefeld University, DE |
Controlled mixing and demixing of nanoparticles by means of dielectrophoresis |
| A3 | Kwasny Dorota Technical University of Denmark, DK |
Microfluidic device as a novel cell transmigration assay |
| A4 | Meance Sebastien LPN-CNRS, FR |
Dynamic and time stability of an integrated on chip organic optical source |
| A5 | Küster Simon ETH Zurich, CH |
Interfacing Droplet Microfluidics with Matrix-Assisted Laser Desorption Ionisation Mass Spectrometry |
| A6 | Vergauwe Nicolas Leuven University, BE |
Highly efficient magnetic particle extraction protocol for heterogeneous bio-assays on a digital lab-on-a-chip |
| A7 | Hühn Dominik Marburg University, DE |
Photo-stimulated gold nanoheaters in polymer and biological media: Characterization of mechanical destruction and boiling |
| A8 | Ros Alexandra University of Arizona, US |
Micro- and Nanoenvironments for Dielectrophoretic Manipulation of Proteins |
| A9 | Deschout Hendrik University of Ghent, BE |
Optofluidics Device with Sheet Illumination for Single Particle Tracking Microscopy |
| A10 | Kavicic Blaz LPKF, SI |
Thin Optical Elements Fabricated with Laser Direct Imaging Lithography |
| A11 | Temiz Yuksel EPFL Lausanne, CH |
3D Integration Technology for Lab-on-a-Chip Applications |
| A12 | King Philip University of Southampton, UK |
Microliter droplet-in-oil arrays via rapid direct manufacture |
| A13 | Mathwig Klaus MESA+ Institute for Nanotechnology, NL | Measuring liquid flow rates with picoliter per minute resolution based on electrochemical cross-correlation spectroscopy |
| A14 | Paulou Cedric EPFL Lausanne, CH | Stretchable metallization for soft biolectronic interfaces |
| A15 | Pardon Gaspard KTH, SE | Fabrication of Nanochannels by Replica Molding using offstoichiometry Thiol-Ene Polymer |
| A16 | Tegenfeldt Jonas University of Gothenburg, SE | Cell Morphology and Deformability in Deterministic Lateral Displacement Devices |
| A17 | Tegenfeldt Jonas University of Gothenburg, SE | Improved Deterministic Lateral Displacement Device for field-Diagnosis of Sleeping-Sickness |
| A18 | Broder Graham University of Southampton, UK | Biomedical assays using a large-area programmable EWOD array |
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Poster Session B |
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| B2 | Meance Sebastien LPN-CNRS, FR | µ3/1000 plasmonic nanocavities for biosensing fabricated by Soft UV Nanoimprinting Lithography |
| B4 | Yang Fang Marburg University, DE |
Development of assay for tracing QDs-labeled cells in coculture |
| B5 | Kralj Slavko Josef Stefan Institute Ljubljana, SI |
Bioconjugation-type dependent EGFR-targeting using fluorescent EGF-labelled magnetic nanoparticles |
| B6 | Janssen Kjeld G.H. Leiden University, NL |
Electrocavitation in Nanochannels |
| B7 | Janssen Kjeld G.H. Leiden University, NL |
Single-Electrolyte Isotachophoresis Using a Nanochannel-Induced Depletion Zone |
| B8 | Montenegro Jose- Maria Marburg University, DE |
Controlled modification of colloidal nanoparticles: a powerful tool toward chemical and biological applications design |
| B9 | De Arpita MESA+ Institute for Nanotechnology, NL |
Silicon Nanowire Biosensors: applications to PH Sensing and Dann Hybridization Detection |
| B10 | Pasche Stéphanie CSEM, CH |
Nanoporous Silicon Membranes for Biotech Applications |
| B11 | Heinzelmann Harry CSEM, CH |
Parallel AFM tools for cell analysis and manipulation |
| B12 | Giovannozzi Andrea I.N.RI.M, Italiy |
P450-based Porous Silicon Biosensor for Arachidonic Acid Detection |
| B13 | Wigenius Jens Chalmers University of Technology, SE |
End-labelled DNA for single molecule fluorescence microscopy in nanofluidic channels |
| B14 | Westerlund Fredrik Chalmers University of Technology, SE |
A novel method for DNA mapping in nanofluidic channels |
| B15 | Fritzsche Joachim University of Gothenburg, SE |
Meandering Nano-Channels for Imaging of Long DNA Molecules |
| B16 | Piret Gaelle University of Lund, SE |
Study of in vitro and in vivo semi-conductor nanowire biocompatibility with retinal cells for medical applications |
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Poster Session C |
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| C1 | Stimberg Verena MESA+ Institute for Nanotechnology, NL |
Integrated Microfluidic Platform for Fundamental Bilayer Studies and Experimentation on Single Pore-Forming Species |
| C2 | van den Brink Floris MESA+ Institute for Nanotechnology, NL |
Parallel Single Cell Analysis on a microfluidic platform |
| C3 | Hamdi Feriel S. Ecole Normale Supérieure de Cachan, FR |
Self Control of Cell Electroporation by Dielectrophoresis Transition |
| C4 | Le Pioufle Bruno Ecole Normale Supérieure de Cachan, FR |
Isolated gold micro singularities for high density cell trapping based on dielectrophoresis |
| C5 | Rodriguez-Trujillo Romen DTU-Nanotech, DK |
Label-free Detection of Protein in a Microfluidic Device Using Bead-Based Electrical Impedance Spectroscopy |
| C6 | Gabriele Sylvain Mons University, BE |
Mechanism of the spatial coordination between cell and nuclear shape |
| C7 | Fryčková Olga CSEM, CH |
Mesoporous sol-gel thin films for optical (bio)sensing applications |
| C8 | Wulf Verena Marburg University, DE |
Internalization of polyelectrolyte microcapsules in human epithelia cells (MDA-MB 231) |
| C9 | Mernier Guillaume EPFL Lausanne, CH |
Continuous-flow separation of platelets from blood by Dielectrophoresis-Field-Flow-Fractionation |
| C10 | Galla Lukas University of Bielefeld, DE |
Carbon-blackened PDMS microfluidic chip for UV/VIS-LIF detection in single cell analy-sis with reduced UV background fluorescence |
| C11 | Fritzsche Joachim University of Gothenburg, SE |
Lipid-Based Passivation for Nanofluidics |
| C12 | Joo Hyunsang Seoul National University, KR |
Dielectrophoretic Focusing of Bacterial Cells on a Wettability-Patterned Surface |
| C13 | Verma Neha Seoul National University, KR |
An Approach for Bio-molecular Detection based on Characterization of Complex Microwave Permittivity using Resonant Wireless Sensor |
| C14 | Baranek Sophie EPFL Lausanne, CH |
Temperature gradient stimulation for cell division control in C. Elegans embryos on chip |
| C15 | Dupouy Diego EPFL Lausanne, CH |
Actuated Magnetic Particles for Rapid Target Capture in Blood and Serum |
| C16 | Cornalgia Matteo EPFL Lausanne, CH |
Analysis of Protein Biomarkers via Magnetic Bead Surface coverage Detection |
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Poster Session D |
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| D2 | Segerink Loes MESA+ Institute for Nanotechnology, NL |
Motility Determination of Spermatozoa on-chip |
| D3 | West Jonathan ISAS e.V. Dortmund, DE |
A microfluidic circuit with water masking for establishing interconnected neuronal co-cultures |
| D4 | Ahmed Sher CSEM, CH |
Improved model biological barriers for toxicology |
| D5 | Schöndube Jonas IMTEK, DE |
Integrated Instrument for Printing Single Cells and Hydrogel Matrices for Future Tissue Engineering |
| D6 | Casadevall i Solvas Xavier Imperial College London, UK |
High-Throughput Age Synchronisation of Caenorhabditis elegans |
| D7 | Galas Jean-Christophe CNRS, FR |
Dynamic chemical map generator for standard cell culture stimulation |
| D8 | Sridhar Adithya MESA+ Institute for Nanotechnology, NL |
Hot embossing of micro-well array in Petri dish for spheroid production |
| D9 | Vermeir Steven University of Leuven, BE |
Integrated intracellular Calcium Assays on a Digital Lab-on-a-chip |
| D10 | Vrij Erik University of Twente, NL |
Agarose microwell high-throughput platform for wide screening of multicellular aggregates |
| D11 | Eker Bilge EPFL Lausanne, CH |
Determination of Dose and Time Dependent Effects of Doxorubicin on MCF-7, a Human Breast Cancer Cell Line, and Its Drug Resistant and Metastatic Variants via Impedimetric Measurements |
| D12 | Meissner Robert EPFL Lausanne, CH |
Rapid, Objective and Label-free Differentiation Between Epithelial Cancer Cell Types |
| D13 | Glückstad Jesper DTU-Fotonik, DK |
Spatio-temporal light shaping for parallel nano-biophotonics |
| D14 | Kohlheyer Dietrich Research Center Jülich, DE | Single cell trapping and analysis of prokaryotic production strains Single cell trapping and analysis of prokaryotic production strains in sub-µm fluidic structures |
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© Nanotech-Montreux, Lausanne, Switzerland, 2011