Thomas Posnicek

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

Add to favorites

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)

Add to favorites

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)

Add to favorites

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

Add to favorites

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)

Add to favorites

Pflanzen- und Umweltsensorik

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

Add to favorites

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

Add to favorites

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)

Add to favorites

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

Add to favorites

CoolAIR - Predictive control of natural nighttime ventilation and daylight-optimized shading for passive building cooling.

Duration: 01/01/2018–31/12/2021
Principle investigator for the project (University for Continuing Education Krems): Daniela Trauninger
Funding: FFG
Program: Stadt der Zukunft

Add to favorites

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

Add to favorites

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

Add to favorites

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

Add to favorites

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

Add to favorites

Entwicklung, Bau und Praxistest eines Biosensors (Prototyp) zum Nachweis von E.Coli-Bakterien im Schnelltest, für Grund-, Oberflächen – und Trinkwasser, zur Überprüfung der Wasserqualität und Steuerung der Wasseraufbereitungsprozesse

Duration: 01/01/2014–31/12/2015
Principle investigator for the project (University for Continuing Education Krems): Martin Brandl
Funding: Bundesländer (inkl. deren Stiftungen und Einrichtungen)
Program: Technologieförderung NÖ

Add to favorites

SAK 254 Optischer Abwassersensor

Duration: 23/01/2012–31/12/2013
Principle investigator for the project (University for Continuing Education Krems): Martin Brandl
Funding: sonstige öffentlich-rechtliche Einrichtungen (Körperschaften, Stiftungen, Fonds)
Program: ---

Add to favorites
Load more
from

Publications (Extract Research Database)

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

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

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

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

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

Aichinger-Rosenberger, M.; Fischer, D.; Hingel, A.; Jandrisits, C.; Berger, G.; Zettl, B.; Derkits, C.; Kellner, K.; Posnicek, T. (2018). Arbeitsbeleuchtung für eine Arbeitsmaschine und Arbeitsmaschine mit der Arbeitsbeleuchtung. Patentanmeldung:18205330.6

Hingel, A.; Aichinger-Rosenberger, M.; Jandrisits, C.; Derkits, C.; Posnicek, T.; Kellner, K.; Garber, M.; Kramer, D. (2018). Verfahren und Lichtsystem zum Schutz vor Blendlicht sowie Arbeitsmaschine mit dem Lichtsystem. Patentanmeldung:18205368.6-1012

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

Brandl, M.; Posnicek, T.; Kellner, K. (2016). Position Estimation of RFID-Based Sensors Using SAW Compressive Receivers. Sensors and Actuators, A: Physical, 244: 277–284

Brandl, M.; Kellner, K.; Posnicek, T. (2016). Spread Spectrum based RFID Position Estimation for Sensor Applications. Procedia Engineering, 168: 1354-1357

Ettenauer, J.; Zuser, K.; Kellner, KH.; Posnicek, T.; Brandl, M. (2016). 8-hydroxyquinoline-glucuronide sodium salt used as electroactive substrate for a sensitive voltammetric detection of Escherichia coli in water samples. Procedia Engineering, Proceedings of the 30th anniversary Eurosensors Conference – Eurosensors 2016, 168: 143-146

Kellner, K.; Ettenauer, J.; Zuser, K.; Posnicek, T.; Brandl, M. (2016). An automated, Robotic Biosensor for the Electrochemical Detection of E. Coli in Water. Proceedia Engeneering, 168: 594-597

Mazza, G.; Posnicek, T.; Brandl, M. (2016). Highly increased detection of silver stained protein bands in polyacrylamide gels with thermo-optical methods. Proceedings of SPIE, 14th International Conference on Optical and Electronic Sensors, 10161: 10161H

Mazza, G.; Posnicek, T.; Wagner, L.; Brandl, M. (2016). Subnanogram detection of silver stained protein bands with thermal lens spectrometry. Procedia Engineering, Proceedings of the 30th anniversary Eurosensors Conference – Eurosensors 2016, 168: 602-605

Posnicek, T.; Ettenauer, J.; Zuser, K.; Kellner, K.; Brandl, M. (2016). A fluorescence based sensor system for automated detection of E. coli in water. Procedia Engineering, Proceedings of the 30th anniversary Eurosensors Conference – Eurosensors 2016, 168: 574-577

John, E.; Cheng, C.; Bornschlegel, A.; Brüggemann, O.; Posnicek, T.; Brandl, M. (2015). Optical sensing device for online calcium detection in extracorporeal blood purification. Sensors & Actuators: B. Chemical, Vol. 209: 1023-1029

Ettenauer, J.; Zuser, K.; Kellner, K.; Posnicek, T.; Brandl, M. (2015). Development of an Automated Biosensor for Rapid Detection and Quantification of E. coli in Water. Procedia Engineering, Vol. 120: 376-379

Load more
from

Lectures (Extract Research Database)

Miniaturized Sensor Platform for the Determination of Impedance Spectroscopic Parameters in Environmental Monitoring

EUROSENSORS XXXVI, 03/09/2024

Entwicklung einer miniaturisierten Sensorplattform für elektrochemische und impedanzspektroskopische Parameter für Anwendungen im Umweltmonitoring

One Water 2024, 21/03/2024

Einfache Echtzeit-Online Bestimmung von Nitrat und Nitrit an Oberflächengewässern

NÖ Innovationspreis, 11/10/2022

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

Mobile Optical Sensor System for DOM Monitoring in Stream Ecosystems

5th International Conference on Sensors Engineering and Electronics Instrumentation Advances (SEIA' 2019), Teneriffa, Spanien, 27/09/2019

Fast and Accurate Detection of Hydrogen Peroxide

MNE 2019, 24/09/2019

Highly Integrated and Mobile Sensor System for Dissolved Organic Matter in Stream Ecosystems

Eurosensors 2018, Graz, Österreich, 10/09/2018

Rapid prototyping of miniature blood vessels

2nd Workshop on Modelling of Biological Cells, Fluid Flow and Microfluidics, Vrátna, Slovakia, 06/02/2017

An automated, Robotic Biosensor for the Electrochemical Detection of E. Coli in Water

Eurosensors 2016, Budapest, Hungary, 06/09/2016

Load more
from

Patents (Extract Research Database)

Work lighting for a machine, and machine having the work lighting [Translation]

Center for Water and Environmental Sensors

Patent No: DE 102017220011A1, Status: Granting

Ing. Thomas Posnicek, Dipl.-HTL-Ing. Karlheinz Kellner

Method and light system for protection from dazzling light, and maching having the light system [Translation]

Center for Water and Environmental Sensors

Patent No: DE10201722013A1, Status: Granting

Ing. Thomas Posnicek, Dipl.-HTL-Ing. Karlheinz Kellner

Back to top