Martin Brandl

Projekte (Auszug Forschungs­datenbank)

Publikationen (Auszug Forschungs­datenbank)

Brandl, M.; Kellner, K. (2022). Automatic Measurement System for Nitrite and Nitrate in Water Bodies. IEEE Sensors Journal, Vol. 22(14): 14531-14539

Chakkarapani, L. D.; Brand, M. (2022). Poly(methylene blue)-Film-Coated Carbon and MWCNT Screen-Printed Electrodes for Tyramine Detection †. MDPI, Vol. 21, Iss. 1: 57

Schneider, S.; Ettenauer, J.; Pap, I.J.; Aspöck, C.; Walochnik, J.; Brandl, M. (2022). Main Metabolites of Pseudomonas aeruginosa: A Study of Electrochemical Properties. Sensors, 22(13): 4694

Adámek, Z.; Bandarin, F.; Bauer, Ch.; Brandl, M.; Drdácký, M.; Habsburg-Lothringen, A.-S.; Hanus, Ch.; Hátle, M.; Hesslerová, P.; Inácio, M.; Kainz, M.; Kirchmaier, L.; Kaupa, J.; Laureano, P.; Parílková, J.; Pereira, P.; Pokorný, J.; Regenda, J.; Rohrbach, W.; Rottenbacher, Ch.; Schneider, B.; Stejskal-Ripka, M.; Strasser, P.; Štys, D.; Veselý, J. (2022). Das Erbe der Teichlandschaft - ein künftiges UNESCO-Welterbe? Edition Universität für Weiterbildung Krems, Krems

Brandl, M. (2022). Intelligente Sensoren für die Wasseranalytik. In: Andreas Salvator Habsburg-Lothringen, C. Hanus, D. Stys, D. Haroshka, S. Bilenkova, Das Erbe der Teichlandschaft - ein künftiges UNESCO-Welterbe? 111-114, Edition Donau-Universität Krems, Krems

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.; Arumugam, S.; Brandl, M. (2021). Layer-by-layer sensor architecture of polymers and nanoparticles for electrochemical detection of uric acid in human urine samples. Materials Today Chemistry, Vol. 22: 100561

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, 22: 1005613

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, Volume 22, Issue 1, 2022: 96-112

Chakkarapani, L.D.; Brandl, M. (2021). Electrochemical Study of Poly(Azure A)-Film Manganese-Hexacyanoferrate-Complex modified Electrodes for Histamine Detection. In: Proceedings in 8th International Electronic Conference on Sensors and Applications: xx, MDPI, online

Brandl, M.; Posnicek, T.; Preuer, R.; Weigelhofer, G. (2020). A Portable Sensor System for Measurement of Fluorescence Indices of Water Samples. IEEE Sensors Journal, 20(16): 9132-9139

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

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Vorträge (Auszug Forschungs­datenbank)

Smarte Sensoren für die Wasseranalytik

Das Erbe der Teichlandschaft - ein zukünftiges UNESCO-Welterbe?, 21.10.2022

Monitoring the presence of Cyanobacteria in water based on the influeneces of nutrients and growing parameters on the growth of bacteria

FEMS conference on Microbiology, 30.06.2022

Influences of nutrients and growing parameters on the growth of cyanobacteria and the production of natural pigments

EFB Spring congress 2022, 10.05.2022

Smarte Sensoren für die Wasseranalytik

Das Erbe der Teichlandschaft, 15.10.2021

In-Situ and Real-Time optical Measurement System for Characterizing the Quality of Water Bodies

MNE2021, 22.09.2021

A Novel Glare Prevention Method for High Power LED Lights

Micro and Nano Engineering Conference 2021, 21.09.2021

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

Simulation and Performance Optimization of an Amperometric Histamine Detection System

Eurosensors 2018, 10.09.2018

A Reliable and Sensitive Method Using Cyclic Voltammetry for the Detection of Airborne Fungi

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

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

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

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Patente (Auszug Forschungs­datenbank)

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, Assistenz Prof. Dr. Jens Hartmann

Dosieranleitung für endotoxinbildende Lipopeptide

Dosing instructions for endotoxin-binding lipopeptides

Zentrum für Biomedizinische Technologie

Patent-Nr: WO2014001444A1, Status: Erteilung

Assistenz Prof. Dr. Jens Hartmann, Dipl.-Ing. Dr. Stephan Harm, Dipl.-Ing. Dr. Martin Brandl

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

Dipl.-Ing. Dr. Martin Brandl

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