Journal
CHEMICAL ENGINEERING JOURNAL
Volume 453, Issue -, Pages -Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.cej.2022.139632
Keywords
Luminescent manometry; Pressure sensor; Chromium(III); Thermal quenching; Crystal field strength
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This paper proposes a novel luminescent manometer that utilizes the spectral shift of Cr3+ ions in a specific material to measure pressure, and demonstrates its performance under different pressure ranges and temperature changes.
The dependence of the spectroscopic properties of the phosphor on the applied pressure enables the development of luminescent manomenters that allow remote readout and imaging of the pressure. Although the most widely used manometers for years have been those using pressure-induced spectral shift of the emission band, their main limitations are relatively low sensitivity for spectrally narrow emission lines or low readout precision for broadband phosphors. Taking advantage of the benefits of both these approaches, this paper proposes a ratio -metric pressure-readout strategy that exploits spectral shift of the 4T2 -> 4A2 emission band of Cr3+ ions in Li2Mg3TiO6. The luminescent manometer developed in this way is characterized by a linear dependence of LIR on pressure in the range of 0-7.75 GPa pressure range and a relative sensitivity of SR = 4.7 %/GPa. Importantly, this manometer is characterized by insensitivity to temperature changes in the 123-563 K. This novel approach will allow the development of a new group of highly sensitive luminescent manometers.
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