Analytische Chemie
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Optical Stability Studies of Hexagonal Upconverting Nanocrystals and Development of Monitoring Tools
(2021)
We demonstrate the potential of time-resolved luminesence spectroscopy for the straightforward assessment and in situ monitoring of the stabilty of UCNPs. Different analytical methods were used to assess the dissolution behaviour of UCNPs in varuous media. Potentiometric and optical data were correlated to develop a new non-invasive monitoring tool for particle dissolution
There are significant differences in toxicity of PM components and cellular responses that can be linked to adverse health effects. Soot and copper oxide induced toxicity, reduced metabolic activity, increased ROS and altered immune response. Increased ROS generation and mitochondrial dysfunctions are well known features in COPD pathology. Toxicity of individual airborne particles can be used to better understand adverse health effects and improve air quality guidelines.
Quaternary semiconductor nanocrystals like AgInS2-ZnS solid solution quantum dots (QDs) are a highly promising material for material science and biomedical applications due to their tunable photoluminescence (PL), their high quantum yields (QY), and their low cytotoxicity1. A red shift of the PL into the NIR and SWIR region could further increase their application potential. Copper doping has been proven to be a suitable approach for bathochromically shifting the PL of QDs2. The synthesis of copper doped AgInS2-ZnS QDs from a single-source-precursor should enable an easily scalable synthesis with high reproducibility.