Publika-tionsliste
- Belegratis, M. R., Schmidt, V., Nees, D., Stadlober, B. & Hartmann, P. Diatom-inspired templates for 3D replication: natural diatoms versus laser written artificial diatoms. Bioinspir. Biomim. 9, 016004 (2014).
- Griesser, T. et al. Cross-linking of ROMP derived polymers using the two-photon induced thiol–ene reaction: towards the fabrication of 3D-polymer microstructures. Polym. Chem. 4, 1708 (2013).
- Leiner, C. et al. Multi-scale simulation of an optical device using a novel approach for combining ray-tracing and FDTD. in Proc. SPIE (Cheben, P., ?tyroký, J. & Molina-Fernandez, I.) 8781, 87810Z–87810Z–9 (2013).
- Scheicher, S., Suppan, M. & Gilli, E. Diagnostic Lab-on-a-Chip System Based on Fluorescence Imaging and Integrating Sample Preparation. Biomed. … 58, 18–19 (2013).
- Schmidt, V. & Belegratis, M. R. Laser Technology in Biomimetics. (Springer Berlin Heidelberg, 2013). doi:10.1007/978-3-642-41341-4
- Bichler, S. et al. Functional flexible organic–inorganic hybrid polymer for two photon patterning of optical waveguides. Opt. Mater. (Amst). 34, 772–780 (2012).
- V. Schmidt, Laser-based micro- and nano-fabrication of photonic structures, in Laser growth and processing of photonic devices, N. Vainos, Ed. Woodhead, 2012, pp. 162 – 237
- Steindorfer, M. A., Schmidt, V., Belegratis, M., Stadlober, B. & Krenn, J. R. Detailed simulation of structural color generation inspired by the Morpho butterfly. Opt. Express 20, 21485–94 (2012).
- Houbertz, R. et al. Optical Waveguides Embedded in PCBs - A Real World Application of 3D Structures Written by TPA. MRS Proc. 1054, 1054–FF01–04 (2011).
- Infuehr, R. et al. 3D-structuring of Optical Waveguides with Two Photon Polymerization. MRS Proc. 1179, 1179–BB01–07 (2011).
- Langer, G., Satzinger, V., Schmidt, V., Schmid, G. & Leeb, W. R. PCB with fully integrated optical interconnects. in Proc. SPIE (Glebov, A. L. & Chen, R. T.) 7944, 794408–794408–15 (2011).
- Woods, R. et al. Epoxy silicone based matrix materials for two-photon patterning of optical waveguides. Polymer (Guildf). 52, 3031–3037 (2011).
- Krivec, S. et al. Silica-Based, Organically Modified Host Material for Waveguide Structuring by Two-Photon-Induced Photopolymerization. Adv. Funct. Mater. 20, 811–819 (2010).
- Steindorfer, M. A. et al. Light coupling for integrated optical waveguide-based sensors. Proc. SPIE 7726, 77261S–77261S–10 (2010).
- Bichler, S. et al. Two-photon patterning of optical waveguides in flexible polymers. Proc. SPIE 7413, 74130W–74130W–11 (2009).
- Pucher, N. et al. Structure?Activity Relationship in D-?-A-?-D-Based Photoinitiators for the Two-Photon-Induced Photopolymerization Process. Macromolecules 42, 6519–6528 (2009).
- Schmid, G., Leeb, W. R., Langer, G., Schmidt, V. & Houbertz, R. Gbit/s transmission via two-photon-absorption-inscribed optical waveguides on printed circuit boards. Electron. Lett. 45, 219 (2009).
- Stampfl, J. et al. Materials for the fabrication of optical waveguides with two photon photopolymerization. Proc. Fifth Int. WLT- Conf. Lasers Manuf. 2–5 (2009). at <http://publik.tuwien.ac.at/files/PubDat_175855.pdf>
- Houbertz, R., Satzinger, V., Schmidt, V., Leeb, W. & Langer, G. Optoelectronic printed circuit board: 3D structures written by two-photon absorption. Proc. SPIE 7053, 70530B–70530B–13 (2008).
- Satzinger, V. et al. Rapid prototyping of micro-optics on organic light emitting diodes and organic photo cells by means of two-photon 3D lithography and nano-imprint lithography. Proc. SPIE 6992, 699217–699217–10 (2008).
- Daschiel, U., Höfler, T., Jakopic, G., Schmidt, V. & Kern, W. Selected Polymers that Contain Aromatic Ester Units: Synthesis, Photoreactions, and Refractive Index Modulation. Macromol. Chem. Phys. 208, 1190–1201 (2007).
- Heller, C. et al. One- and two-photon activity of cross-conjugated photoinitiators with bathochromic shift. J. Polym. Sci. Part A Polym. Chem. 45, 3280–3291 (2007).
- Infuehr, R. et al. Functional polymers by two-photon 3D lithography. Appl. Surf. Sci. 254, 836–840 (2007).
- Liska, R. et al. Photopolymers for rapid prototyping. J. Coatings Technol. Res. 4, 505–510 (2007).
- Schmidt, V. et al. Application of two-photon 3D lithography for the fabrication of embedded ORMOCER waveguides. Proc. SPIE 6476, 64760P–64760P–9 (2007).
- Schmidt, V., Kuna, L., Satzinger, V., Jakopic, G. & Leising, G. Two-photon 3D lithography: A Versatile Fabrication Method for Com-plex 3D Shapes and Optical Interconnects within the Scope of Innovative Industrial Applications. JLMN-Journal of Laser Micro/Nanoengineering 2, 170–177 (2007).
- Schmidt, V. & Kuna, L. Focus image feedback-controlled 3D laser microstructuring. Proc. SPIE 6002, 60021C–60021C–11 (2005).
- Schmidt, V., Husinsky, W. & Betz, G. Ultrashort laser ablation of metals: pump–probe experiments, the role of ballistic electrons and the two-temperature model. Appl. Surf. Sci. 197-198, 145–155 (2002).
- Schmidt, V. & Husinsky, W. Tissue perforation of vessel substitutes using a femtosecond Ti: Sapphire laser system. Proc. SPIE 4166, 54 – 59 (2000).
- Schmidt, V., Husinsky, W. & Betz, G. Dynamics of Laser Desorption and Ablation of Metals at the Threshold on the Femtosecond Time Scale. Phys. Rev. Lett. 85, 3516–3519 (2000).