Non-invasive, simultaneous optical monitoring of oxygen and pH during bacterial cultivation in 24-well microplates is presented using an integrated dual sensor for dissolved oxygen and pH values. The dual sensor is based on oxygen-sensitive organosilica microparticles and pH-sensitive microbeads from a polymethacrylate derivative embedded into a polyurethane hydrogel. The readout is based on a phase-domain fluorescence lifetime-based method referred to as modified frequency domain dual lifetime referencing using a commercially available detector system for 24-well microplates. The sensor was used for monitoring the growth of Pseudomonas putida bacterial cultures. The method is suitable for parallelized, miniaturized bioprocessing, and cell-...
The application of the micro fluid segment technique for the investigation of highly resolved dose–r...
Knowledge of bacterial activity inside biofilms is key to the optimization of applied biotechnologie...
Optical chemical sensors are well established in the chemical industry, life science, biotechnology ...
Non-invasive, simultaneous optical monitoring of oxygen and pH during bacterial cultivation in 24-we...
In this study, we developed fluorescent dual pH and oxygen sensors loaded in multi-well plates for i...
This paper describes properties of microplates (MTPs) with integrated, fluorescence-based sensors fo...
A novel sensing device for simultaneous dissolved oxygen (DO) and pH monitoring specially designed f...
A parallel microbioreactor with novel optical sensors was developed for monitoring and controlling c...
© 2013 The Korean Society for Biotechnology and Bioengineering Abstract: Dissolved oxygen, pH and ce...
Development of a bacterial culture platform which accounts for the characteristic human gut oxygen g...
New materials are described that lead to sensors capable of simultaneous sensing of pH and oxygen vi...
Shaken bioreactors are widespread in the field of biotechnology. Especially, microtiter plates are i...
ABSTRACT: A hydrogel microarray biosensor has been fabricated to monitor pH and dissolved oxygen on ...
International audienceMiniaturization and high-throughput screening are currently the focus of emerg...
Optical chemical sensors are established process monitoring tools in industry and research laborator...
The application of the micro fluid segment technique for the investigation of highly resolved dose–r...
Knowledge of bacterial activity inside biofilms is key to the optimization of applied biotechnologie...
Optical chemical sensors are well established in the chemical industry, life science, biotechnology ...
Non-invasive, simultaneous optical monitoring of oxygen and pH during bacterial cultivation in 24-we...
In this study, we developed fluorescent dual pH and oxygen sensors loaded in multi-well plates for i...
This paper describes properties of microplates (MTPs) with integrated, fluorescence-based sensors fo...
A novel sensing device for simultaneous dissolved oxygen (DO) and pH monitoring specially designed f...
A parallel microbioreactor with novel optical sensors was developed for monitoring and controlling c...
© 2013 The Korean Society for Biotechnology and Bioengineering Abstract: Dissolved oxygen, pH and ce...
Development of a bacterial culture platform which accounts for the characteristic human gut oxygen g...
New materials are described that lead to sensors capable of simultaneous sensing of pH and oxygen vi...
Shaken bioreactors are widespread in the field of biotechnology. Especially, microtiter plates are i...
ABSTRACT: A hydrogel microarray biosensor has been fabricated to monitor pH and dissolved oxygen on ...
International audienceMiniaturization and high-throughput screening are currently the focus of emerg...
Optical chemical sensors are established process monitoring tools in industry and research laborator...
The application of the micro fluid segment technique for the investigation of highly resolved dose–r...
Knowledge of bacterial activity inside biofilms is key to the optimization of applied biotechnologie...
Optical chemical sensors are well established in the chemical industry, life science, biotechnology ...