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An Optical Thermometer Based on the Delayed Fluorescence of C 70
Author(s) -
Baleizão Carlos,
Nagl Stefan,
Borisov Sergey M.,
Schäferling Michael,
Wolfbeis Otto S.,
BerberanSantos Mário N.
Publication year - 2007
Publication title -
chemistry – a european journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.687
H-Index - 242
eISSN - 1521-3765
pISSN - 0947-6539
DOI - 10.1002/chem.200601580
Subject(s) - fluorescence , thermometer , materials science , polymer , analytical chemistry (journal) , perylene , atmospheric temperature range , methacrylate , photochemistry , optics , chemistry , chromatography , monomer , physics , quantum mechanics , meteorology , composite material
A sensitive and broad‐ranged optical thermometer, based on the thermally activated delayed fluorescence of fullerene C 70 , is presented. It consists of C 70 molecularly dispersed in a polymer film. Several polymer matrices were investigated. In the absence of oxygen the fluorescence intensity increases markedly with temperature. At 25 °C the fluorescence intensity of C 70 increases maximally by a factor of between 17 and 22, depending on the polymer, whereas at 100 °C the fluorescence intensity can be 79 times higher. In the absence of oxygen and for temperatures above 20 °C, the red fluorescence of C 70 in the films is so intense that it is easily perceived by the naked eye. For the systems studied, the fluorescence intensity is very sensitive to temperature. This results in a working range from −80 to at least 140 °C in the case of C 70 in poly( tert ‐butyl methacrylate) (PtBMA). Perylene was incorporated into the film as an internal reference in order to enable ratiometric measurements. The sensitivity of the lifetime of the delayed fluorescence to temperature is also high and results in an even wider working range. The performance of the C 70 /PtBMA film was measured against a well‐known optical temperature probe, [Ru(phen) 3 ] (phen=phenanthroline). The results show that the C 70 /PtBMA film is a very good system for optical temperature‐sensing over a wide range of temperatures, outperforming known standards.