Bernhard Müller
Graz University of Technology
22 Papers
66 Citations
Bernhard Müller is an academic researcher from Graz University of Technology. The author has contributed to research in topics: Mass transfer & BODIPY. The author has an hindex of 11, co-authored 22 publications. Previous affiliations of Bernhard Müller include University of Graz.
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Papers
Red‐ to NIR‐Emitting, BODIPY‐Based, K+‐Selective Fluoroionophores and Sensing Materials
TL;DR: In this article, aza-crown ether as a receptor and borondipyrromethenes (BODIPY) dyes as fluorophores are used for the selective measurement of potassium ions (K+) in water.
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Robust optical oxygen sensors based on polymer-bound NIR-emitting platinum(II)–benzoporphyrins
TL;DR: In this article, an advanced optical oxygen sensor material is presented based on bright NIR-emitting platinum(II)-benzoporphyrins covalently incorporated into a variety of polymeric matrices.
High performance optical trace oxygen sensors based on NIR-emitting benzoporphyrins covalently coupled to silicone matrixes
TL;DR: In this article, a new robust optical sensors for measurement of low oxygen concentrations are presented, which have excellent photophysical properties like high brightness, good photostability and NIR emission.
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High-resolution optical pH imaging of concrete exposed to chemically corrosive environments
Cyrill Grengg,Bernhard Müller,Christoph Staudinger,Florian Mittermayr,Johanna Breininger,Birgit Ungerböck,Sergey M. Borisov,Torsten Mayr,Martin Dietzel +8 more
TL;DR: In this article, the authors used sensor foils based on luminescent, pH sensitive dyes for quantification and imaging of the spatial distribution of surface pH of concrete within a pH range between 9.35 and 12.35.
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Measurement of respiration and acidification rates of mammalian cells in thermoplastic microfluidic devices
Bernhard Müller,Philipp Sulzer,Manuel Walch,Helene Zirath,Tomas Buryska,Mario Rothbauer,Peter Ertl,Torsten Mayr +7 more
TL;DR: It complements modern 3D cell cultures and organ-on-chip research with a powerful analytical technology for gathering information about ongoing cell metabolism and can potentially be deployed in all sorts of microfluidic devices.
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