Peter Ertl - Vice Rector Research, Innovation and International Affairs
Vice Rector Research, Innovation, International Affairs
Press Photos
© TU Wien, Foto: Matthias Heisler
© TU Wien, Foto: Matthias Heisler
Research Profile of Vice Rector Peter Ertl
Keywords
biotechnology , lab-on-a-chip, Nano-Technology, bioassay development, minuaturization, organ-on-a-chip , microfluidics , RRR, biosensors
Research Focal Areas
Areas of expertise according to Statistik Austria
Biophysics, Cell biology (cytology), Technical chemistry
- Optional Organic Chemistry Lab , opens an external URL in a new window , 163.021, LU
- Optional Organic Chemistry Lab , opens an external URL in a new window , 163.022, LU
- Optional Organic Chemistry Lab , opens an external URL in a new window , 163.023, LU
- Bachelor Thesis , opens an external URL in a new window , 163.140, LU
- Organ-on-a-chip Technologies , opens an external URL in a new window , 163.179, VO
- Rapid prototyping of microfluidic devices , opens an external URL in a new window , 163.180, VU
- PhD Privatissimum , opens an external URL in a new window , 163.187, PV
- Biochip Technologies in (Bio)Analytical Chemistry , opens an external URL in a new window , 164.220, VO
- Industrial Chemistry , opens an external URL in a new window , 164.292, VO
- Project: Biomaterials and Biomechanics , opens an external URL in a new window , 317.056, PR
- Project: Biomedical Instrumentation & Signals , opens an external URL in a new window , 363.010, PA
- Project: Biomedical Instrumentation & Signals , opens an external URL in a new window , 363.020, PR
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| Bioorthogonal uncaging of iRGD–conjugates via Tz–triggered click–to–release reaction at reposiTUm , opens an external URL in a new windowDafadar, S., Wilkovitsch, M., Mikula, H., & Ertl, P. (2025). Bioorthogonal uncaging of iRGD–conjugates via Tz–triggered click–to–release reaction. In ChemBioParis Abstract Book. ChemBioParis Conference 2025, Paris, France.
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| Development of a Fully DLP-Printed Sensor-Integrated Cell Culture Well for Electrochemical Measurements at reposiTUm , opens an external URL in a new windowLeuschner, C., Krauß, J. E. M., Schimpf, M., Lorenz, A., Ertl, P., Schobesberger, S., & Frauenlob, M. (2025, September 17). Development of a Fully DLP-Printed Sensor-Integrated Cell Culture Well for Electrochemical Measurements [Poster Presentation]. 6th Conference on Impedance-Based Cellular Assays (IBCA 2025), Regensburg, Germany. http://hdl.handle.net/20.500.12708/224080
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| An Animal-Free Patient-Derived Tissue-Mimetic Biochip Model of the Human Synovial Membrane for Human-Relevant Osteoarthritis Research at reposiTUm , opens an external URL in a new windowReihs, E. I., Stoegner, A., Vasconez Martinez, M. G., Schreiner, M. M., Cezanne, M., Gruebl-Barabas, R., Rodriguez Molina, B., Alphonsus, J., Hayer, S., Lass, R., Gerner, I., Jenner, F., Holnthoner, W., Toegel, S., Ertl, P., Kiener, H. P., Windhager, R., & Rothbauer, M. (2025). An Animal-Free Patient-Derived Tissue-Mimetic Biochip Model of the Human Synovial Membrane for Human-Relevant Osteoarthritis Research. Advanced Healthcare Materials, 14(23), Article 2404799. https://doi.org/10.1002/adhm.202404799
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| Investigation on compound leaching of DLP 3D printed materials to advance microfluidic cell culture at reposiTUm , opens an external URL in a new windowKrauß, J. E. M., Leuschner, C., Ertl, P., & Frauenlob, M. (2025, September 8). Investigation on compound leaching of DLP 3D printed materials to advance microfluidic cell culture [Conference Presentation]. 34th Annual Conference of the European Society for Biomaterials (ESB 2025), Turin, Italy. http://hdl.handle.net/20.500.12708/224039
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| A cost-effective vessel-on-a-chip for high shear stress applications in vascular biology at reposiTUm , opens an external URL in a new windowBecher, C., Frauenlob, M., Selinger, F., Ertl, P., Goumans, M. J., & Sanchez-Duffhues, G. (2025). A cost-effective vessel-on-a-chip for high shear stress applications in vascular biology. Microvascular Research, 160, Article 104814. https://doi.org/10.1016/j.mvr.2025.104814
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| A TCO-masked iRGD-Fluorophore Conjugate is Activated via a Bioorthogonal Tz-Triggered click-to-release Reaction, Performed Under insitu Conditions on a Microfluidic Chip at reposiTUm , opens an external URL in a new windowDafadar, S., Wilkovitsch, M., Mikula, H., & Ertl, P. (2025). A TCO-masked iRGD-Fluorophore Conjugate is Activated via a Bioorthogonal Tz-Triggered click-to-release Reaction, Performed Under insitu Conditions on a Microfluidic Chip. In International Conference on Engineering for Life Sciences : ENROL 2025 : Book of Abstracts. ENROL 2025: International Conference on Engineering for Life Sciences, Vienna, Austria.
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| Microfluidic Immunoassay for the Detection of SARS-CoV-2 Neutralizing Antibodies in Human Plasma Samples at reposiTUm , opens an external URL in a new windowSchobesberger, S., Thumfart, H., Selinger, F., Spitz, S., Gonzalez, C., Pei, L., Poglitsch, M., & Ertl, P. (2025, June 24). Microfluidic Immunoassay for the Detection of SARS-CoV-2 Neutralizing Antibodies in Human Plasma Samples [Poster Presentation]. SelectBIO Lab-on-a-Chip and Microfluidics Europe 2025, France. http://hdl.handle.net/20.500.12708/223263