17/18 January 2007 Wiener Neustadt - Czelo
17/18 January 2007 Wiener Neustadt - Czelo
17/18 January 2007 Wiener Neustadt - Czelo
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MTA MFA<br />
Address Konkoly-Thege u. 29-33 Hungary<br />
0 - Budapest<br />
Phone / Fax +36-1-3922224 / +36-1-3922226<br />
www www.mfa.kfki.hu<br />
Size 51-250<br />
Organisation Type RTD Institute<br />
Contact Person<br />
Name Prof. István Bársony<br />
Position director<br />
Email barsony@mfa.kfki.hu<br />
Type of co-operation (Offered, Requested) Areas of activity<br />
Licence agreement<br />
Technical Co-operation (R&D) Offered<br />
Joint research project Requested<br />
Joint-venture agreement<br />
Manufacturing agreement<br />
Commercial agreement<br />
Financial agreement<br />
Short description of company<br />
Research Institute for Technical Physics and Materials Science,<br />
Hungarian of Academy Sciences<br />
MTA-MFA<br />
www.mfa.kfki.hu<br />
• Electronics, Microelectronics<br />
• Electronic engineering<br />
• Coatings<br />
• Surface treatment(CVD,PVD)<br />
• Materials Technology<br />
• Ceramic Materials/Powders<br />
• Composite Materials<br />
• Biosensor<br />
• Sensors & Instruments<br />
• Laboratory Equipment<br />
• Measurement Tools<br />
•<br />
Mission of the institute<br />
• Interdisciplinary research performed on complex functional materials and structures, studies of physical,<br />
chemical principles, development of characterization techniques, implementation into integrated micro- and<br />
nanosystems.<br />
• Dissemination of the results in international programs, involvement in education and in industrial R&D, with<br />
special attention to the needs of SME-s.<br />
With a total staff of 150 including 100 researchers and PhD students the institute works on several projects in the<br />
fields o<br />
• Microtechnology, Sensorics; semiconductor (pressure, gas, microwave); magnetic (non-destructive in metals);<br />
optical waveguides, microcavities for biosensors. InP based semiconductor light emitting diodes, development of<br />
Si and CIGS solar cell sturctures. Porous Si multilayers, research of SiC and its characterisation by ion beam<br />
methods.<br />
• Nanotechnology; porous silicon, carbon nanotubes and other fullerene-like materials, AFM/STM investigation<br />
of special (Y and spiral shaped) carbon nanotubes, computer simulation of electron transport. X-ray<br />
diffractometry on thin layers, phase identification, texture analysis. Reserach and development of SiN ceramics<br />
and composite materials. Nanotechnology with Focussed Ion Beam on a FESEM. Theoretical simulations.<br />
Research of sensor elements capable of self-assembly (Joint Chair with University of Veszprém).<br />
• Thin Films, formation, metals, compound semiconductors (SiC, III-V-s), and Surface Physics, methodical<br />
research for Auger improvement. Investigation of the layer growth on metals, composite layers and<br />
semiconductors (GaN), high resolution microscopy of diamond and SiC heterostructures. Development of hard<br />
coatings based on fullerene-like materials. Transmission Electron Microscopy and Auger depth profiling with high<br />
depth resolution. Study of nanometer size metal crystal grains, laser ablation.