| human | Q5 |
| P227 | GND ID | 1159714185 |
| P2798 | Loop ID | 139544 |
| P496 | ORCID iD | 0000-0002-7625-2445 |
| P1153 | Scopus author ID | 57201765820 |
| P214 | VIAF ID | 7372152684030623430000 |
| P10832 | WorldCat Entities ID | E39PBJyrXHxK9cjQPHfYPG34v3 |
| P69 | educated at | University of Waterloo | Q1049470 |
| University of Natural Resources and Life Sciences, Vienna | Q876520 | ||
| P108 | employer | University of California, Berkeley | Q168756 |
| TU Wien | Q689400 | ||
| Austrian Institute of Technology | Q783627 | ||
| P734 | family name | Ertl | Q21504813 |
| Ertl | Q21504813 | ||
| Ertl | Q21504813 | ||
| P735 | given name | Peter | Q2793400 |
| Peter | Q2793400 | ||
| P106 | occupation | chemist | Q593644 |
| researcher | Q1650915 | ||
| P21 | sex or gender | male | Q6581097 |
| Q112721172 | A Microfluidic Multisize Spheroid Array for Multiparametric Screening of Anticancer Drugs and Blood-Brain Barrier Transport Properties |
| Q109729007 | Bridging the academic–industrial gap: application of an oxygen and pH sensor-integrated lab-on-a-chip in nanotoxicology |
| Q52686476 | Combinatorial in Vitro and in Silico Approach To Describe Shear-Force Dependent Uptake of Nanoparticles in Microfluidic Vascular Models. |
| Q47787678 | Development of a Multifunctional Nanobiointerface Based on Self-Assembled Fusion-Protein rSbpA/ZZ for Blood Cell Enrichment and Phenotyping. |
| Q28397944 | Microfluidic Impedimetric Cell Regeneration Assay to Monitor the Enhanced Cytotoxic Effect of Nanomaterial Perfusion |
| Q48245923 | Microfluidic Migration and Wound Healing Assay Based on Mechanically Induced Injuries of Defined and Highly Reproducible Areas |
| Q90700854 | Monitoring tissue-level remodelling during inflammatory arthritis using a three-dimensional synovium-on-a-chip with non-invasive light scattering biosensing |
| Q91879445 | Monitoring transient cell-to-cell interactions in a multi-layered and multi-functional allergy-on-a-chip system |
| Q91477885 | Oxygen Management at the Microscale: A Functional Biochip Material with Long-Lasting and Tunable Oxygen Scavenging Properties for Cell Culture Applications |
| Q49978957 | Recent advances in microfluidic technologies for cell-to-cell interaction studies. |
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