A microfluidically perfused three dimensional human liver model K Rennert, S Steinborn, M Gröger, B Ungerböck, AM Jank, J Ehgartner, ... Biomaterials 71, 119-131, 2015 | 271 | 2015 |
MicroRNA-26 family is required for human adipogenesis and drives characteristics of brown adipocytes M Karbiener, DF Pisani, A Frontini, LM Oberreiter, E Lang, A Vegiopoulos, ... Stem cells 32 (6), 1578-1590, 2014 | 189 | 2014 |
Precipitation as a simple and versatile method for preparation of optical nanochemosensors SM Borisov, T Mayr, G Mistlberger, K Waich, K Koren, P Chojnacki, ... Talanta 79 (5), 1322-1330, 2009 | 166 | 2009 |
Integration and application of optical chemical sensors in microbioreactors P Gruber, MPC Marques, N Szita, T Mayr Lab on a Chip 17 (16), 2693-2712, 2017 | 158 | 2017 |
Optical sensor for seawater salinity C Huber, I Klimant, C Krause, T Werner, T Mayr, OS Wolfbeis Fresenius' journal of analytical chemistry 368, 196-202, 2000 | 151 | 2000 |
In-line analysis of organ-on-chip systems with sensors: Integration, fabrication, challenges, and potential S Fuchs, S Johansson, AØ Tjell, G Werr, T Mayr, M Tenje ACS Biomaterials Science & Engineering 7 (7), 2926-2948, 2021 | 132 | 2021 |
DASH-2: flexible, low-cost, and high-throughput SNP genotyping by dynamic allele-specific hybridization on membrane arrays M Jobs, WM Howell, L Strömqvist, T Mayr, AJ Brookes Genome Research 13 (5), 916-924, 2003 | 122 | 2003 |
Microfluidic oxygen imaging using integrated optical sensor layers and a color camera B Ungerböck, V Charwat, P Ertl, T Mayr Lab on a Chip 13 (8), 1593-1601, 2013 | 116 | 2013 |
Fast pesticide detection inside microfluidic device with integrated optical pH, oxygen sensors and algal fluorescence IB Tahirbegi, J Ehgartner, P Sulzer, S Zieger, A Kasjanow, M Paradiso, ... Biosensors and Bioelectronics 88, 188-195, 2017 | 111 | 2017 |
Multicolor upconversion nanoparticles for protein conjugation S Wilhelm, T Hirsch, WM Patterson, E Scheucher, T Mayr, OS Wolfbeis Theranostics 3 (4), 239, 2013 | 111 | 2013 |
Cross-reactive metal ion sensor array in a micro titer plate format T Mayr, C Igel, G Liebsch, I Klimant, OS Wolfbeis Analytical chemistry 75 (17), 4389-4396, 2003 | 110 | 2003 |
Light harvesting as a simple and versatile way to enhance brightness of luminescent sensors T Mayr, SM Borisov, T Abel, B Enko, K Waich, G Mistlberger, I Klimant Analytical Chemistry 81 (15), 6541-6545, 2009 | 106 | 2009 |
Dual lifetime referenced optical sensor membrane for the determination of copper (II) ions T Mayr, I Klimant, OS Wolfbeis, T Werner Analytica Chimica Acta 462 (1), 1-10, 2002 | 101 | 2002 |
Poly (styrene-block-vinylpyrrolidone) beads as a versatile material for simple fabrication of optical nanosensors SM Borisov, T Mayr, I Klimant Analytical chemistry 80 (3), 573-582, 2008 | 99 | 2008 |
Fluorescence sensors for trace monitoring of dissolved ammonia K Waich, T Mayr, I Klimant Talanta 77 (1), 66-72, 2008 | 96 | 2008 |
NIR-emitting aza-BODIPY dyes–new building blocks for broad-range optical pH sensors M Strobl, T Rappitsch, SM Borisov, T Mayr, I Klimant Analyst 140 (21), 7150-7153, 2015 | 89 | 2015 |
Fluorescent materials for pH sensing and imaging based on novel 1, 4-diketopyrrolo-[3, 4-c] pyrrole dyes D Aigner, B Ungerböck, T Mayr, R Saf, I Klimant, SM Borisov Journal of Materials Chemistry C 1 (36), 5685-5693, 2013 | 89 | 2013 |
Every breath you take: non-invasive real-time oxygen biosensing in two-and three-dimensional microfluidic cell models H Zirath, M Rothbauer, S Spitz, B Bachmann, C Jordan, B Müller, ... Frontiers in physiology 9, 815, 2018 | 86 | 2018 |
Sugar‐responsive fluorescent nanospheres G Zenkl, T Mayr, I Klimant Macromolecular bioscience 8 (2), 146-152, 2008 | 81 | 2008 |
Trace ammonia sensors based on fluorescent near-infrared-emitting aza-BODIPY dyes M Strobl, A Walcher, T Mayr, I Klimant, SM Borisov Analytical chemistry 89 (5), 2859-2865, 2017 | 79 | 2017 |