Ing. Thomas Posnicek

Danube University Krems

Ing. Thomas Posnicek

Center for Water and Environmental Sensors

Projects (Extract Research Database)

Publications (Extract Research Database)

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

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Lectures (Extract Research Database)

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

8-hydroxyquinoline-glucuronide sodium salt used as electroactive substrate for a sensitive voltammetric detection of Escherichia coli in water samples.

30. Eurosensors 2016 - Budapest/Ungarn, 05/09/2016

Subnanogram detection of silver stained protein bands with thermal lens spectrometry

Eurosensors 2016, 05/09/2016

A sensitive potentiometric assay for E. coli detection using the electroactive substrate 8-hydroxyquinoline-glucuronide

Biosensors 2016, 27/05/2016

Development of an automated biosensor for rapid detection and quantification of E. coli in water

Eurosensors 2015, 09/09/2015

Highly increased detection of silver stained protein bands in polyacrylamide gels with thermal lens spectrometry

Eurosensors 2015, 08/09/2015

A new, low-cost potentiostat for environmental measurements with an easy-to-use PC interface

Eurosensors 2015, 08/09/2015

An Integrated Optical Measurement System for Water Quality Monitoring

Eurosensors 2014, Brescia, Italy, 09/09/2014

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