Journal Article10.1039/B501536G
Materials for fluorescence-based optical chemical sensors
514
TL;DR: In this article, the progress made in the past years and some of the future aspects and challenges are discussed, as well as the potential of using fluorescence in the future. But the implementation of spectroscopic schemes into a useful sensing scheme has been hampered by the lack of appropriate materials including polymers and particles, indicator probes, molecular receptors, carriers, catalysts and fluorescent semiconductor materials.
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Abstract: Optical chemical sensors are capable of continuously recording a chemical species and thus have found (and will find) numerous applications in areas such as the chemical industry, in biotechnology and medicine. Among the many optical methods are employed for sensing purposes, fluorescence has attracted particular attention because it is sensitive, has numerous parameters that can serve as an analytical information and knows effects unknown to other spectroscopies. The implementation of spectroscopic schemes into a useful sensing scheme has been hampered though, by the lack of appropriate materials including polymers and particles, indicator probes, molecular receptors, carriers, catalysts and fluorescent semiconductor materials. This article will address the progress made in the past years and some of the futures aspects and challenges.
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Unprecedented thermal condensation of tetracyanocyclopropanes to triazaphenalenes: a facile route for the design of novel materials for electronic applications
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