Dipl.-Ing. Dr. Martin Brandl
- martin.brandl@donau-uni.ac.at
- +43 2732 893-2790
- +43 2732 893-4600 (Fax)
- Zum Kontaktformular
- Campus Krems, Trakt C, 2. Stock, 2.09a
- Donau-Universität Krems
- Zentrum für Wasser- und Umweltsensorik
- Dr.-Karl-Dorrek-Straße 30
- 3500 Krems
- Österreich
Projekte (Auszug Forschungsdatenbank)
3D-printed ceramic-based partial implants for knee hemiarthroplasty
Analysis and optimization of dark states in metamaterials
Sensor- und Steuerungssystem für intelligente Lichtsysteme an Fahrzeugen
BIOAMINA - Kolorimetrischer multiplex Assay zur Schnellbestimmung von biogenen Aminen
Publikationen (Auszug Forschungsdatenbank)
Brandl, M.; Kellner, K. (2021). Performance Evaluation of Power-Line Communication Systems for LIN-Bus Based Data Transmission. Electronics, 10(1): 85
Chakkarapani, L.D.; Brandl, M. (2021). Highly sensitive electrochemical detection of tyramine using a poly(toluidine blue)-modified carbon screen-printed electrode. IEEE Sensors Journal, 09: 10.1109/JSEN.2021.3109660
Eder, A.; Weigelhofer, G.; Pucher, M.; Tiefenbacher, A.; Strauss, P.; Brandl, M.; Blöschl, G. (2021). Pathways and composition of dissolved organic carbon in a small agricultural catchment during base flow conditions. Ecohydrology & Hydrobiology, 07: https://doi.org/10.1016/j.ecohyd.2021.07.012
Brandl, M.; Posnicek, T.; Preuer, R.; Weigelhofer, G. (2020). A Portable Sensor System for Measurement of Fluorescence Indices of Water Samples. IEEE SENSORS JOURNAL: doi: 10.1109/JSEN.2020.2988588
Chakkarapani, L. D.; Brandl, M. (2020). Carbon Screen-Printed Electrode Coated with Poly (Toluidine blue) as an Electrochemical Sensor for the Detection of Tyramine. MDPI Eng. Proc., 2/51: 10.3390/ecsa-7-08171
Weigelhofer, G.; Tiefenbacher, A.; Brandl, M.; Strauss, P. (2019). Organischer Kohlenstoff in Bächen – Auswirkungen ackerbaulicher Bewirtschaftungspraktiken. Österreichische Wasser- und Abfallwirtschaft, 72/2020: 85-91
Zuser, K.; Ettenauer, J.; Kellner, K.; Posnicek, T.; Mazza, G.; Brandl, M. (2019). A Sensitive Voltammetric Biosensor for Escherichia Coli Detection Using an Electroactive Substrate for ß -D-Glucuronidase. IEEE Sensors Journal, Volume 19, Issue 18: 7789-7802
Kellner, K.; Hochwarter, D.; Brandl, M. (2019). A Study on Low Latency Serial Power Line Tunnels for Sensor Data Transmission. In: IFSA Publishing, S.L., SEIA' 2019 Conference Proceedings: 233-235, Lulu.com, ISBN 9788409174928
Posnicek, T.; Preuer, R.; Weigelhofer, G.; Eder, A.; Brandl, M. (2019). Mobile Optical Sensor System for DOM Monitoring in Stream Ecosystems. In: IFSA Publishing, S.L., SEIA' 2019 Conference Proceedings: 59-60, Lulu.com, ISBN 9788409174928
Brandl, M., Kellner, K., Posnicek, T., Hochwarter, D. (2019). Performance Evaluation of a DQPSK and a DSSS PLC-Modem for Vehicular Applications. IEEE International Symposium on Power Line Communications and its Applications (ISPLC) 2019, 1: 1-5
Gusenbauer, M.; Mazza, G.; Posnicek, T.; Brandl, M.; Schrefl, T. (2018). Magnetically actuated circular displacement micropump. The International Journal of Advanced Manufacturing Technology, 95: 3575/https://doi.org/10.1007/s00170-017-1440-5
Gusenbauer, M.; Tothova, R.; Mazza, G.; Brandl, M.; Schrefl, T.; Jancigova, I.; Cimrak, I. (2018). Cell Damage Index as Computational Indicator for Blood Cell Activation and Damage. Artificial Organs, Volume 42, Issue 7: 746-755
Brandl, M.; Wagner, L.M. (2018). Microwave Oscillator Design for a SRR Based Biosensor Platform. MDPI Proceedings, 2(13): 865
Ettenauer, J.; Semak, V.; Brandl, M. (2018). Synthesis of Fluorescein Aldehydes for the Sensitive Detection of L-Cysteine. MDPI Proceedings, 2018, 2: 895, MDPI
Ettenauer, J.; Zuser, K.; Pfeiffer, S.; Cserna, D.; Brandl, M. (2018). A Reliable and Sensitive Method Using Cyclic Voltammetry for the Detection of Airborne Fungi. MDPI Proceedings, 2: 959, MDPI
Kellner, K.; Ettenauer, J.; Brandl, M. (2018). A New Integrated Multi-Pathogen in Situ Detection Platform Using Electrochemical Impedance Spectroscopy. MDPI Proceedings, 2018: 1506, MDPI
Posnicek, T.; Weigelhofer, G.; Eder A.; Brandl, M. (2018). Highly Integrated and Mobile Sensor System for Dissolved Organic Matter in Stream Ecosystems. MDPI Proceedings 2018, 2(13): 1507
Wagner, L.-M.; Pilecky, M.; Mazza, G.; Preininger, C.; Brandl, M. (2018). Simulation and Performance Optimization of an Amperometric Histamine Detection System. MDPI Proceedings, 2018, 2: 853
Mazza, G.; Posnicek, T.; Wagner, L.M.; Ettenauer, J.; Zuser, K.; Gusenbauer, M.; Brandl, M. (2017). Thermal lens spectrometry applied for a sensitive detection of silver-stained protein bands in polyacrylamide gels. Sensors and Actuators B-Chemical, 249: 731–737
Gusenbauer, M.; Mazza, G.; Brandl, M.; Schrefl, T. (2017). Sensing the blood cell damage in a magnetically actuated circular pump. IEEE, 2017 IEEE Sensors: 1-3
Vorträge (Auszug Forschungsdatenbank)
Fast and Accurate Detection of Hydrogen Peroxide
MNE 2019, 24.09.2019
In vitro detection of pathogenic bacteria by phospholipase A activity for an integrated biosensor in domestic water systems
MNE 2019, Rhodos, Griechenland, 24.09.2019
Performance Evaluation of a DQPSK and a DSSS PLC-Modem for Vehicular Applications
IEEE International Symposium on Power Line Communications and its Applications (ISPLC), Prague, Czech Republic, 03.04.2019
Use of phospholipase A activity for detection of pathogenic bacteria in vitro
2.European Biosensor Symposium, Florenz, Italien, 19.02.2019
Performance Optimization of a Histamine Detection System using electrochemical Simulations
MNE 2018, 26.09.2018
Microwave Oscillator Design for a SRR based Biosensor Platform
IEEE Eurosensors 2018 Conference, Graz, Austria, 11.09.2018
A Reliable and Sensitive Method Using Cyclic Voltammetry for the Detection of Airborne Fungi
Eurosensors 2018, Graz, Österreich, 10.09.2018
A New Integrated Multi-Pathogen in Situ Detection Platform Using Electrochemical Impedance Spectroscopy
Eurosensors 2018, Graz, Österreich, 10.09.2018
Synthesis of Fluorescein Aldehydes for the Sensitive Detection of L-Cysteine
Eurosensors 2018, Graz, Österreich, 10.09.2018
Highly Integrated and Mobile Sensor System for Dissolved Organic Matter in Stream Ecosystems
Eurosensors 2018, Graz, Österreich, 10.09.2018
Simulation and Performance Optimization of an Amperometric Histamine Detection System
Eurosensors 2018, 10.09.2018
Position Estimation of RFID based Sensors using SAW Compressive Receivers
Technical Seminar, Zhongkai University, Guangzhou, 23.11.2017
Sensing the blood cell damage in a magnetically actuated circular pump
IEEE Sensors 2017, 01.11.2017
Centred gap split ring resonator for high sensitive detection of biomarkers during haemodialysis
MNE2017, 20.09.2017
RFID Integration into a Low Power Sensor Platform
Eurosensors 2017, Paris, France, 05.09.2017
Electromagnetic Characterization and Simulation of Carbonate Buffer System on a Microwave Biosensor
Eurosensors 2017, 04.09.2017
Ranging and Tracking of RFID based Sensors using an SAW based Compressive Receiver
International Conference on Materials, Methods and Technologies, 27.06.2017
Model-Based Design and Optimization of Microfluidic Systems for Gentle Cellular Perfusion
Sensor2017 Nürnberg, 31.05.2017
A reliable detection method for cellulolytic, airborne fungi using cyclic voltammetry
5th international Conference on Bio-sensing Technology, 09.05.2017
Optimisation of electrochemical impedance spectroscopy for a biosensor to detect fungi
5th international Conference on Bio-sensing Technology, 08.05.2017
Patente (Auszug Forschungsdatenbank)
Dosieranleitung für endotoxinbildende Lipopeptide
Dosing instructions for endotoxin-binding lipopeptides
Zentrum für Biomedizinische Technologie
Patent-Nr: WO2014001444A1, Status: Erteilung
Ass. Prof. Dr. Jens Hartmann, Dipl.-Ing. Dr. Martin Brandl, Dipl.-Ing. Dr. Stephan Harm
Verfahren zur potentiometrischen Detektion von Escherichia Coli Bakterien mit Hilfe des elektroaktiven Substrats
Method for potentiometric detection of Escherichia coli bacteria using an electroactive substrate [Translation]
Department für Integrierte Sensorsysteme
Patent-Nr: 519072, Status: Erteilung
Verfahren zum Erfassen der Ionenkonzentration bei citrat-antikoagulierter extrakorporaler Blutreinigung
Method for measuring the ion concentration in citrate-anticoagulated extracorporeal blood purification [Translation]
Zentrum für Biomedizinische Technologie
Patent-Nr: AT505690B1, Status: Lizenz
Mag. Karin Strobl, MSc, Dipl.-Ing. Dr. Martin Brandl, Ass. Prof. Dr. Jens Hartmann
Tags