B. Becker
Technische Universität München
12 Papers
47 Citations
B. Becker is an academic researcher from Technische Universität München. The author has contributed to research in topics: Automation & Volume (thermodynamics). The author has an hindex of 4, co-authored 12 publications.
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Papers
Sensor-based cell and tissue screening for personalized cancer chemotherapy
Regina Kleinhans,Martin Brischwein,Pei Wang,B. Becker,Franz Demmel,T. Schwarzenberger,Marlies Zottmann,P Wolf,Axel Niendorf,Bernhard Wolf +9 more
TL;DR: A novel high-content platform is described monitoring human mamma carcinoma explants in real time and label-free before, during and after an ex vivo modeled chemotherapy.
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Impedance sensor technology for cell-based assays in the framework of a high-content screening system
T. Schwarzenberger,P Wolf,Martin Brischwein,R. Kleinhans,Franz Demmel,A Lechner,B. Becker,Bernhard Wolf +7 more
TL;DR: The development of miniaturized electronics for impedance measurements and its system integration as a modular unit is developed and it is shown how sensor electrodes were optimized by impedance matching such that spectroscopy and raw data analysis become feasible for every culture well.
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Automated multi-parametric label free 24 channel real-time screening system
B. Becker,Volker Lob,N. Janzen,D. Grundl,F. Ilchmann,Bernhard Wolf +5 more
- 01 Jan 2008
TL;DR: An automated high-content online measurement system suitable for applications like pharmaceutical drug screening, in vitro chemo-sensitivity assays, toxicological studies and analytical histopathology is developed.
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Bioimpedance microelectronics in a 24-microwell plate with metabolic-sensors for testing chemosensitivity of tumor cells and tissues
T. Schwarzenberger,Franz Demmel,B. Becker,M. Zottmann,P Wolf,R. Kleinhans,Martin Brischwein,Angela M. Otto,Bernhard Wolf +8 more
- 01 Apr 2010
TL;DR: The approach is a 24-microwell sensor-plate with impedance-electrodes in parallel to pH- and O2-sensors, capable of being integrated into a fully automated screening system and the potential to monitor living tissue probes is presented for the first time.
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Development of a multiparametric handheld biosensor for use in mobile applications
M. Schmidhuber,B. Becker,Joachim Wiest,Bernhard Wolf +3 more
- 18 May 2009
TL;DR: The technological background of the biosensor system together with its sensor technology is described and the concept of an energy-saving microfluidic system is provided as well as data interpretation algorithms and measurement results are presented.
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