Synchronous Temperature and Magnetic Field Dual-Sensing by Luminescence in a Dysprosium Single-Molecule Magnet
| authors | Ferreira, RAS; Mamontova, E; Botas, AMP; Shestakov, M; Vanacken, J; Moshchalkov, V; Guari, Y; Chibotaru, LF; Luneau, D; Andre, PS; Larionova, J; Long, J; Carlos, LD |
| nationality | International |
| journal | ADVANCED OPTICAL MATERIALS |
| author keywords | luminescence; magnetic field; molecular thermometers; single-molecule magnets |
| keywords | UP-CONVERSION LUMINESCENCE; CRYSTAL-FIELD; NANOPARTICLES; THERMOMETERS; SPECTRA; COMPLEX; EU3+ |
| abstract | Sensors are increasingly present in the everyday life in widespread technological applications, and engineering smart systems able to simultaneously detect different physical quantities represents a scientific challenge. Taking advantage of the molecular chemistry realm that offers the possibility to finely adjust physical properties, it is demonstrated herein that the luminescent single-molecule magnet [Dy(acac)(3)(H2O)(2)]center dot H2O (acac = acetylacetonate) acts as a dual and synchronous thermometric/magnetic optical sensor in large ranges (10.0-180.0 K and up to approximate to 45 T) holding the promise to detect their variations in future devices. |
| publisher | WILEY-V C H VERLAG GMBH |
| issn | 2195-1071 |
| year published | 2021 |
| volume | 9 |
| issue | 24 |
| digital object identifier (doi) | 10.1002/adom.202101495 |
| web of science category | 8 |
| subject category | Materials Science, Multidisciplinary; Optics |
| unique article identifier | WOS:000707880100001 |
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impact metrics
| journal analysis (jcr 2019): |
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| journal impact factor | 8.286 |
| 5 year journal impact factor | 8.224 |
| category normalized journal impact factor percentile | 91.353 |
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