Overview of N‐rich antennae investigated in lanthanide-based temperature sensing
Autor: | Flore Vanden Bussche, Anna M. Kaczmarek, Veronique Van Speybroeck, Christian V. Stevens, Pascal Van Der Voort |
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Jazyk: | angličtina |
Rok vydání: | 2021 |
Předmět: |
Lanthanide
chemistry.chemical_classification 010405 organic chemistry Chemistry Organic Chemistry Nanotechnology Polymer General Chemistry Atmospheric temperature range 010402 general chemistry sensors 01 natural sciences Catalysis 0104 chemical sciences Mesoporous organosilica Thermometer lanthanides Antenna (radio) Porosity covalent organic frameworks Visible spectrum temperature sensing |
Zdroj: | CHEMISTRY-A EUROPEAN JOURNAL |
ISSN: | 0947-6539 1521-3765 |
Popis: | The market share of noncontact temperature sensors is expending due to fast technological and medical evolutions. In the wide variety of noncontact sensors, lanthanide‐based temperature sensors stand out. They benefit from high photostability, relatively long decay times and high quantum yields. To circumvent their low molar light absorption, the incorporation of a light‐harvesting antenna is required. This review provides an overview of the nitrogen‐rich antennae in lanthanide‐based temperature sensors, emitting in the visible light spectrum, and discuss their temperature sensor ability. The N‐rich ligands are incorporated in many different platforms. The investigation of different antennae is required to develop temperature sensors with diverse optical properties and to create a diverse offer for the multiple application fields. First the molecular probes, consisting of small molecules, are discussed. Furthermore, the thermometer properties of ratiometric temperature sensors, based on di‐ and polynuclear complexes, metal‐organic‐frameworks, periodic mesoporous organosilicas and porous organic polymers, are summarized. The antenna mainly determines the application potential of the ratiometric thermometer. It can be observed that molecular probes are operational in the broad physiological range, metal‐organic‐frameworks are generally very useful in the cryogenic region, periodic mesoporous organosilica show temperature dependency in the physiological range and porous organic polymers are operative in the cryogenic to medium temperature range. |
Databáze: | OpenAIRE |
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