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SELECTBIO Conferences Lab-on-a-Chip and Microfluidics Europe 2018

Aleksandr Ovsianikov's Biography

Aleksandr Ovsianikov, Professor, Additive Manufacturing Technologies, Technische Universität Wien

Dr. Ovsianikov is an associate professor at the Vienna University of Technology (TU Wien, Austria). He has background in laser physics and material processing with femtosecond lasers. The primary research domain of his group at the TU Wien is the development of materials and additive manufacturing technologies for biomedical applications. A particular focus the current research is the development high-resolution 3D printing and bioprinting by means of multiphoton lithography, including microfabrication / laser-induced photochemistry, photografting / biofunctionalization, biocompatible / biodegradable photopolymers, scaffold based tissue engineering and three-dimensional tissue models.

Since 2004 Dr. Ovsianikov has contributed to over 60 publications in peer-reviewed journals, 5 book chapters and co-edited two books:

“Multiphoton Lithography: Techniques, Materials, and Applications” J. Stampfl, R. Liska, A. Ovsianikov (Eds.) John Wiley & Sons (2016), [ISBN: 978-3-527-33717-0]

“3D Printing and Biofabrication” A. Ovsianikov, J. Yoo, V. Mironov (Eds.) Springer International Publishing in association with TERMIS (Tissue Engineering and Regenerative Medicine International Society), [ISBN 978-3-319-45444-3]

Aleksandr Ovsianikov Image

High Resolution 3D Printing Inside a Chip

Wednesday, 6 June 2018 at 11:30

Add to Calendar ▼2018-06-06 11:30:002018-06-06 12:30:00Europe/LondonHigh Resolution 3D Printing Inside a ChipLab-on-a-Chip and Microfluidics Europe 2018 in Rotterdam, The NetherlandsRotterdam, The

3D printing opens exciting perspectives towards rapid engineering of complex 3D structures for microfluidic applications. In this context, multiphoton lithography (MPL) is an outstanding approach, since photosensitive material formulations and cells are delivered by perfusing the channels, thus enabling 3D printing within already assembled microfluidic chips. The latter aspects implies that different materials, construct geometries and cell types can be tested with the same set of chips without changing their initial design or fabrication process. In addition MPL offers high spatial resolution, unmatched by other 3D printing approaches, and can produce features down to sub-100 nm level directly in the volume of the material, without the necessity to deposit it layer by layer. An increasing portfolio of available materials enables utilization of the versatile capabilities of MPL, from producing complex volumetric 3D structures by means of cross-linking, to creating void patters within hydrogels already containing living cells. In this contribution, our recent progress on MPL for microfluidic applications and the development of according materials will be presented.

Add to Calendar ▼2018-06-05 00:00:002018-06-06 00:00:00Europe/LondonLab-on-a-Chip and Microfluidics Europe 2018Lab-on-a-Chip and Microfluidics Europe 2018 in Rotterdam, The NetherlandsRotterdam, The