17/18 January 2007 Wiener Neustadt - Czelo

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MTA MFA Address Konkoly-Thege u. 29-33 Hungary 0 - Budapest Phone / Fax +36-1-3922224 / +36-1-3922226 www www.mfa.kfki.hu Size 51-250 Organisation Type RTD Institute Contact Person Name Prof. István Bársony Position director Email barsony@mfa.kfki.hu Type of co-operation (Offered, Requested) Areas of activity Licence agreement Technical Co-operation (R&D) Offered Joint research project Requested Joint-venture agreement Manufacturing agreement Commercial agreement Financial agreement Short description of company Research Institute for Technical Physics and Materials Science, Hungarian of Academy Sciences MTA-MFA www.mfa.kfki.hu • Electronics, Microelectronics • Electronic engineering • Coatings • Surface treatment(CVD,PVD) • Materials Technology • Ceramic Materials/Powders • Composite Materials • Biosensor • Sensors & Instruments • Laboratory Equipment • Measurement Tools • Mission of the institute • Interdisciplinary research performed on complex functional materials and structures, studies of physical, chemical principles, development of characterization techniques, implementation into integrated micro- and nanosystems. • Dissemination of the results in international programs, involvement in education and in industrial R&D, with special attention to the needs of SME-s. With a total staff of 150 including 100 researchers and PhD students the institute works on several projects in the fields o • Microtechnology, Sensorics; semiconductor (pressure, gas, microwave); magnetic (non-destructive in metals); optical waveguides, microcavities for biosensors. InP based semiconductor light emitting diodes, development of Si and CIGS solar cell sturctures. Porous Si multilayers, research of SiC and its characterisation by ion beam methods. • Nanotechnology; porous silicon, carbon nanotubes and other fullerene-like materials, AFM/STM investigation of special (Y and spiral shaped) carbon nanotubes, computer simulation of electron transport. X-ray diffractometry on thin layers, phase identification, texture analysis. Reserach and development of SiN ceramics and composite materials. Nanotechnology with Focussed Ion Beam on a FESEM. Theoretical simulations. Research of sensor elements capable of self-assembly (Joint Chair with University of Veszprém). • Thin Films, formation, metals, compound semiconductors (SiC, III-V-s), and Surface Physics, methodical research for Auger improvement. Investigation of the layer growth on metals, composite layers and semiconductors (GaN), high resolution microscopy of diamond and SiC heterostructures. Development of hard coatings based on fullerene-like materials. Transmission Electron Microscopy and Auger depth profiling with high depth resolution. Study of nanometer size metal crystal grains, laser ablation.
• Photonics, Ellipsometry, Semiconductor Lasers and LED-s, solar cells, integrated optics, biosensing with molecular recognition devices with multiple binding capabilities. Magnetic mapping for defect recognization. Major facilities: • Clean lab (Class 10-10000) for sensor-oriented semiconductor processing with Mask facility • Structural characterization lab with Electron Microscopy (HRTEM, TEM, outstanding probe preparation), Auger (High resolution profiling), and Scanning Probe Lab, (STM, AFM, and modeling) • Nanostructuring lab with FESEM and Focused Ion Beam, SEM manipulation Contac MTA MFA H-1121 Budapest, Konkoly-Thege u. 29-33, Hungary Director. Prof. István Bársony Phone: +36-1-3922224 Fax: + 36-1-3922226 E-Mail: barsony@mfa.kfki.hu 1. Profile: RTD: Flagellin-based artificial receptors DESCRIPTION: Biosensors and protein-chips usually apply antibodies as recognition elements. However, these proteins are expensive, poorly stable and hard to prepare. It is highly desirable to replace antibodies with other kind of sensing molecules. Flagellin, the subunit protein of bacterial flagellar filaments, is a protein polymerizable to form long filaments. The central portion of the amino acid sequence of flagellin, which forms the outer part of the filament, is highly variable, and can be modified by genetic engineering or chemical treatment without affecting polymerization ability. The concept in this project is to engineer the central portion of flagellin to give it receptor functionality and/or to give it surface binding functionality, and to use these modified flagellins to build various filamentous objects. Flagellin-based artificial receptors capable of efficient recognition and binding of various target molecules are under development using directed evolution and rational protein design. These filamentous receptor structures may serve as basic recognition units for biological sensors and diagnostic kits applicable in medical diagnostics, drug development, environmental monitoring or food quality control. INNOVATIVE ASPECTS: Due to their polymerization ability, flagellin-based receptors can be used to build various filamentous objects. Starting from a certain type of flagellin receptor, filaments of desired length can be prepared with a very high binding site density on their surface. Moreover, filamentous receptor structures can be co-polymerized from differently modified flagellins. These block copolymers can recognize and bind different target molecules in different regions, or they can be immobilized through a certain region (e.g. via their specifically modified subunits), while their other parts are involved in molecular recognition. MAIN ADVANTADGES / BENEFITS: • Flagellin-based receptors can be easily produced by bacteria in large quantities • From flagellin receptors stable filamentous structures of desired length can be constructed. Along the filament, regions providing different functions can be constructed from flagellin monomers of different properties. • Extremely high binding site density can be obtained on the surface of the filament which allows optical detection of binding of small ligands. TECHNICAL SPECIFICATIONS: Filamentous receptor structures may serve as sensing elements in various types of biosensors including optical waveguide sensors, SPR sensors or micromechanical sensors. CURRENT STAGE OF DEVELOPMEN • Flagellin subunits with surface binding functionality has been produced • Ni- and As-binding flagellin variants were successfully created • Ni-binding filamentous receptors were immobilized onto the surface of a Biacore chip (without dextran matrix) and an easily measurable signal was observed upon ligand binding • A gene library coding for flagellin sequences randomized in the central portion has been created for selection of mutants with desirable binding properties. INTELLECTUAL PROPERTY RIGHTS (IPR):Patent pending. (PCT/HU05/00142) MARKET APPLICATIONS: Flagellin-based receptor structures may serve as basic recognition units for biological sensors and diagnostic kits applicable in medical diagnostics, drug development, environmental monitoring or food quality control.. TYPE OF COLLABORATION SOUGH FP7 PARTNER PROFILE: Institute: Reserach Institute for Technical Physics and Materials Science, Hungarian Academy of Sciences, Budapest
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• Electronics, Microelectronics
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Organisation Index Institute of Phy
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Organisation Index TECHNICAL UNIVER
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Organisation Index Faculty of Mater
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1. Profile: RTD: High sensitive wea
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New applications or new products re
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AMAG rolling GmbH Address Postfach
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Attophotonics Biosciences GmbH Addr
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austriamicrosystems Address Tobelba
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Austrian Researc Centers GmbH - ARC
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Austrian Research Centers GmbH - AR
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D. Swarovski & Co. Address Swarovsk
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FFG - EIP - Austrian EUREKA Office
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FFG Austrian Research Promotion Age
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FFG Austrian Research Promotion Age
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Happy Plating GmbH Address Leobersd
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Institute of Materials Science and
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INTELLECTUAL PROPERTY RIGHTS (IPR):
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inhibition with minimal drug induce
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Integrated Microsystems Austria Gmb
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Joanneum Research GmbH Address Stey
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Joanneum Research, Insitute of Nano
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Kunststoff-Cluster, Clusterland Obe
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M.Kaindl Flooring Address Kaindlstr
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CURRENT STAGE OF DEVELOPMEN plannin
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Page 58 and 59: 1. Profile: Expertise: Nanoimprint
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Page 64 and 65: 1. Profile: Reques Electrochemical
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Page 104 and 105: http://www.mfa.kfki.hu/eng/ Laborat
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Page 134 and 135: MARKET APPLICATIONS: The large appl
Page 136 and 137: National R&D Institute for Microtec
Page 138 and 139: MARKET APPLICATIONS: - Realisation
Page 140 and 141: Production of individual structural
Page 142 and 143: Faculty of Materials Science and Te
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Page 146 and 147: Nanoporous layers with 30-100nm cha
Page 148 and 149: INKA - Institut für nanotechnische
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2. Profile: Expertise: Plastic Elec
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17/18 January 2007 Wiener Neustadt - Czelo

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