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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University of Vienna, Department of Physical Chemistry<br />
Address Währinger Strasse 42 Austria<br />
1090 - Wien<br />
Phone / Fax 01 4277 52470 /<br />
www www.univie.ac.at/pchem/<br />
Size 250+<br />
Organisation Type University<br />
Contact Person<br />
Name Univ.-Prof. Dr. Wolfgang Kautek<br />
Position Professor<br />
Email wolfgang.kautek@univie.ac.at<br />
Type of co-operation (Offered, Requested) Areas of activity<br />
Licence agreement<br />
Technical Co-operation (R&D) Boths<br />
Joint research project Boths<br />
Joint-venture agreement<br />
Manufacturing agreement<br />
Commercial agreement<br />
Financial agreement<br />
• Coatings<br />
• Surface treatment(CVD,PVD)<br />
• Materials Technology<br />
• Composite Materials<br />
• Metals and Alloys<br />
• Plastics, Polymers<br />
• Textiles Technology<br />
• Biosensor<br />
• Sensors & Instruments<br />
• Filtration/Membrane Process<br />
• Electromedical/Medical Equip.<br />
• Biology / Biotechnology<br />
• Paper Technology<br />
• Measurement Tools<br />
•<br />
Short description of company<br />
The working group Physical Chemistry and Nanotechnology of Interfaces, Department of Physical Chemistry of<br />
the University of Vienna, is concentrated on research and development of nano- and microsystems, functional<br />
coatings, and the development of sub-50-fs laser cleaning and laser microscopy. The head of the department,<br />
Prof. Kautek, has been involved in numerous European and national research projects which involve the vivid<br />
contact and exchange between industrial partners and research centres.<br />
1. Profile: Offer: Multi-photon fs-laser 3D-Nano Manipulation and 3D-Fluorescence Microscopy<br />
DESCRIPTION: Supercritical light intensities in the focus of transparent bulk materials enables laser direct-writing<br />
of 3D nano and microstructures in almost any transparent composite and functional material<br />
INNOVATIVE ASPECTS: A novel optical setup coupling 60-fs-pulses into a modern high precision microscope<br />
allows ultrahigh-precision processing and 3D Fluorescence Microscopy.<br />
MAIN ADVANTADGES / BENEFITS: ultraprecision nanoscale manipulation of sensitive materials and 3D<br />
microscopy<br />
TECHNICAL SPECIFICATIONS: 60fs-MHz-high-power laser technology<br />
CURRENT STAGE OF DEVELOPMEN Setup phase<br />
INTELLECTUAL PROPERTY RIGHTS (IPR):<br />
MARKET APPLICATIONS: sensorics, medical diagnostics<br />
TYPE OF COLLABORATION SOUGH joint research project, industrial projects, EU-projects<br />
PARTNER PROFILE: industry, research organization