Dipl.-Ing. Dr. Martin Brandl

Head of Center - Center for Water and Environmental Sensors

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Projects (Extract Research Database)

Running projects

Hella Vision Phase III

Duration: 01/09/2024–31/08/2025
Principle investigator for the project (University for Continuing Education Krems): Martin Brandl
Funding: FFG

Microbial model as a fuel cell for the assimilation of methane

Duration: 30/05/2023–30/06/2025
Principle investigator for the project (University for Continuing Education Krems): Martin Brandl
Funding: Bundesländer (inkl. deren Stiftungen und Einrichtungen)

Development of a miniaturized sensor platform for electrochemical and impedance spectroscopic parameters for environmental monitoring applications.

Duration: 30/05/2023–30/06/2025
Principle investigator for the project (University for Continuing Education Krems): Martin Brandl
Funding: Bundesländer (inkl. deren Stiftungen und Einrichtungen)

MicroElectroFlow: European Training Network for engineering high-performance, low-cost, next-generation flow electrochemistry

Duration: 01/01/2023–30/06/2027
Principle investigator for the project (University for Continuing Education Krems): Martin Brandl
Funding: EU

Development of new filter systems made of waste fibres from textile production to reduce hormone-active substances (endocrine disruptors) in water

Duration: 01/01/2023–31/07/2024
Principle investigator for the project (University for Continuing Education Krems): Martin Brandl
Funding: Bundesländer (inkl. deren Stiftungen und Einrichtungen)

3D-printed ceramic-based partial Implants for knee hemiarthroplasty

Duration: 01/04/2022–31/03/2025
Principle investigator for the project (University for Continuing Education Krems): Christoph Bauer
Funding: Bundesländer (inkl. deren Stiftungen und Einrichtungen)

Edible balcony gardens for retrofit

Duration: 01/03/2022–31/12/2025
Principle investigator for the project (University for Continuing Education Krems): Martin Brandl
Funding: FFG

Retentive road construction

Duration: 01/01/2022–30/11/2025
Principle investigator for the project (University for Continuing Education Krems): Martin Brandl
Funding: Bund (Ministerien)

3D-printed ceramic-based partial implants for knee hemiarthroplasty

Duration: 01/07/2021–31/05/2025
Principle investigator for the project (University for Continuing Education Krems): Martin Brandl
Funding: Bundesländer (inkl. deren Stiftungen und Einrichtungen)

Pflanzen- und Umweltsensorik

Duration: 01/01/2021–31/12/2021
Principle investigator for the project (University for Continuing Education Krems): Martin Brandl
Funding: Unternehmen

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Completed projects

Hella Vision

Duration: 01/06/2023–31/05/2024
Principle investigator for the project (University for Continuing Education Krems): Martin Brandl
Funding: FFG

Development of innovative electrochemical methods for the sensitive and selective detection of trace substances in water and the environment.

Duration: 01/01/2021–30/06/2023
Principle investigator for the project (University for Continuing Education Krems): Martin Brandl
Funding: Bundesländer (inkl. deren Stiftungen und Einrichtungen)

Innovative monitoring system of water-technical and microbiological parameters in the aquatic ecosystem

Duration: 01/01/2020–31/12/2022
Principle investigator for the project (University for Continuing Education Krems): Martin Brandl
Funding: EU

Sensor and control system for intelligent lighting systems on vehicles

Duration: 01/01/2018–31/12/2021
Principle investigator for the project (University for Continuing Education Krems): Martin Brandl
Funding: Bundesländer (inkl. deren Stiftungen und Einrichtungen)
Program: Technologieförderung NÖ

BIOAMINA - Colorimetric multiplex assay for rapid detection of biogenic amines

Duration: 01/10/2017–31/12/2021
Principle investigator for the project (University for Continuing Education Krems): Martin Brandl
Funding: Bundesländer (inkl. deren Stiftungen und Einrichtungen)
Program: nfb

Development of a new and an innovative method for the sensitive and selective detection of Legionella in water systems

Duration: 01/01/2017–31/12/2020
Principle investigator for the project (University for Continuing Education Krems): Martin Brandl
Funding: Bundesländer (inkl. deren Stiftungen und Einrichtungen)
Program: Technopol

Design and validation of new methods for the prevention of microbial contamination in electronically controllable water fittings

Duration: 01/04/2018–31/12/2020
Principle investigator for the project (University for Continuing Education Krems): Martin Brandl
Funding: Bundesländer (inkl. deren Stiftungen und Einrichtungen)
Program: FTI Programm LNÖ

Organic carbon cycling in streams: Effects of agricultural land use

Duration: 01/01/2017–31/12/2019
Principle investigator for the project (University for Continuing Education Krems): Martin Brandl
Funding: Bundesländer (inkl. deren Stiftungen und Einrichtungen)
Program: nfb

Analysis and optimization of dark states in metamaterials

Duration: 01/10/2018–31/10/2019
Principle investigator for the project (University for Continuing Education Krems): Martin Brandl
Funding: Bundesländer (inkl. deren Stiftungen und Einrichtungen)
Program: nfb

Microwave based biosensors with printable surface modifications for point-of-care testing of haemodialysis patients

Duration: 01/01/2015–31/12/2017
Principle investigator for the project (University for Continuing Education Krems): Martin Brandl
Funding: Bundesländer (inkl. deren Stiftungen und Einrichtungen)
Program: Life Science Call NFB

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Publications (Extract Research Database)

Chakkarapani, L. D.; Bytešníková, Z.; Richtera, L.; Brandl, M. (2024). Selective and sensitive determination of phenolic compounds using carbon screen printing electrodes modified with reduced graphene oxide and silver nanoparticles. Applied Materials Today, Vol. 37: 102113

Pham, M.-L; Maghsoomi, S.; Brandl, M. (2024). An Electrochemical Aptasensor for the Detection of Freshwater Cyanobacteria. Biosensors, Vol 14, issue 1: doi.org/10.3390/bios14010028

Chakkarapani, L.D.; Arumugam, S.; Brandl, M. (2023). Simultaneous electrochemical detection of L-dopa and hydrogen peroxide by poly (amido amine) dendrimer/poly (neutral red) modified sensor. Journal of Food Composition and Analysis, 105847: https://doi.org/10.1016/j.jfca.2023.105847

Knecht, A. E.; Ettenauer, J.; Posnicek, T.; Taschl, M.; Helmecke, M.; Haller, H.; Gölß, S.; Brandl, M. (2023). Differences in Microbial Communities in DrinkingWater from Conventional Electronic and Manual Taps in Dependence on Stagnation and Flushing Cycles. Water 2023, Vol. 15, iss. 4: 784

Pham, M.L.; Askarzadmohassel, E.; Brandl, M. (2023). Growth of freshwater cyanobacterium Aphanizomenon sp. ULC602 in different growing and nutrient conditions. Frontiers in Microbiology, Vol. 14: x

Schneider, S.; Ettenauer, J.; Pap I.J.; Aspöck, C.; Brandl, M. (2023). Electrochemical characterization of main Pseudomonas aeruginosa metabolites for detection with an integrated sensor system. Book of Abstracts

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: doi: 10.1109/JSEN.2020.2988588

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

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

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Lectures (Extract Research Database)

Smarte Sensoren für ein Smartes Wasser

One-Water Congress 2024, 21/03/2024

Development of an electrochemical aptamer-based biosensor for detection of freshwater cyanobacteria

Ecotoximic Young Researcher 2023, 13/11/2023

Electrochemical characterization of main Pseudomonas aeruginosa metabolites for detection with an integrated sensor system

RME2023 – the 15th conference in the Rapid Methods Europe, 06/11/2023

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

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Patents (Extract Research Database)

Method for measuring the ion concentration in citrate-anticoagulated extracorporeal blood purification [Translation]

Center for Biomedical Technology

Patent No: AT505690B1, Status: License

Dipl.-Ing. Dr. Martin Brandl, Mag. Karin Strobl, MSc, Assoz. Prof. Dr. Jens Hartmann

Method for potentiometric detection of Escherichia coli bacteria using an electroactive substrate [Translation]

Department for Integrated Sensor Systems

Patent No: 519072, Status: Granting

Dipl.-Ing. Dr. Martin Brandl

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