In Situ Water Quality Monitoring Using an Optical Multiparameter Sensor Probe.
Tobias GoblirschThomas MayerStefanie PenzelMathias RudolphHelko BorsdorfPublished in: Sensors (Basel, Switzerland) (2023)
Optical methods such as ultraviolet/visible (UV/Vis) and fluorescence spectroscopy are well-established analytical techniques for in situ water quality monitoring. A broad range of bio-logical and chemical contaminants in different concentration ranges can be detected using these methods. The availability of results in real time allows a quick response to water quality changes. The measuring devices are configured as portable multi-parameter probes. However, their specification and data processing typically cannot be changed by users, or only with difficulties. Therefore, we developed a submersible sensor probe, which combines UV/Vis and fluorescence spectroscopy together with a flexible data processing platform. Due to its modular design in the hardware and software, the sensing system can be modified to the specific application. The dimension of the waterproof enclosure with a diameter of 100 mm permits also its application in groundwater monitoring wells. As a light source for fluorescence spectroscopy, we constructed an LED array that can be equipped with four different LEDs. A miniaturized deuterium-tungsten light source (200-1100 nm) was used for UV/Vis spectroscopy. A miniaturized spectrometer with a spectral range between 225 and 1000 nm permits the detection of complete spectra for both methods.
Keyphrases
- water quality
- single molecule
- high resolution
- living cells
- light emitting
- electronic health record
- solid state
- photodynamic therapy
- mass spectrometry
- high speed
- quantum dots
- drinking water
- high throughput
- energy transfer
- optical coherence tomography
- wastewater treatment
- machine learning
- aqueous solution
- label free
- single cell
- deep learning
- heavy metals
- low cost
- health risk