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Betke, Ulf
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Topics
Publications (10/10 displayed)
- 2023Bismuth-doped rare-earth orthovanadates as tunable luminescence decay-time thermometers
- 2022Reticulated ceramic foams from alumina-chromia solid solutions : a feasibility study
- 2021Hierarchical‐porous copper foams by a combination of sponge replication and freezing techniques
- 2020Microstructure and compression properties of VSS‑V3B2 eutectic alloys in the V-Si-B system
- 2020Open-cell aluminium foams by the sponge replication technique : a starting powder particle study
- 2020Phase Evolution, Filler-Matrix Interactions, and Piezoelectric Properties in Lead Zirconate Titanate (PZT)-Filled Polymer-Derived Ceramics (PDCs)citations
- 2019Refitting of Zirconia Toughening into Open-Cellular Alumina Foams by Infiltration with Zirconyl Nitratecitations
- 2019Refitting of zirconia toughening into open-cellular alumina foams by infiltration with zirconyl nitrate
- 2019Reticulated Open-Celled Zinc Oxide Ceramic Foams: Manufacturing, Microstructure, Mechanical, and Thermal Propertiescitations
- 2016Manufacturing of Reticulated Open-Cellular Aluminum Nitride Ceramic Foams from Aqueous AlN Suspensions citations
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document
Bismuth-doped rare-earth orthovanadates as tunable luminescence decay-time thermometers
Abstract
<jats:p>If the temperature-sensitive range of luminescent thermometers could be continuously adjusted by the material properties, a sensor material could be selected to finely resolve key thermal phenomena occurring around specific temperatures, such as the physiological temperature or the boiling points of certain substances. In this study, solid solutions of YVO4 and ScVO4 doped with bismuth are synthesised to explore the impact of the solution composition on the phosphor luminescence properties, in particular the temperature dependence of the luminescence decay time. Substituting Sc3+ ions with the slightly larger Y3+ ions causes a continuous shift in the decay time temperature sensitivity towards higher temperatures. Using X-ray diffraction measurements, a relationship between the thermal quenching temperature and the Bi3+-V5+ interatomic distance is proposed. This paper introduces a systematic framework for tunable decay time luminescence thermometers with a peak sensitivity above 2.2%/°C at a temperature that can be adjusted anywhere between -15°C and 220°C. Owing to their microsecond decay time, the luminescence emission of these phosphors can be detected using cameras with short interframe times for temperature imaging of fast temperature transients with a precision below 1°C.</jats:p>