Negative and positive thermal expansion effects regulate the upconversion and near-infrared downshift luminescence for multiparametric temperature sensing
Science China Materials(2023)
摘要
Rare earth-doped luminescent materials suffer from thermal quenching (TQ) at high temperatures, greatly limiting their application in the high-temperature region. In this work, we prepared Yb 2 W 3 O 12 :Er negative thermal expansion (NTE) materials, achieving thermal enhancement of upconversion (UC) and near-infrared (NIR) downshift (DS) luminescence upon 980-nm excitation. When the temperature increased from 293 to 573 K, the green UC luminescence of Er 3+ increased by 27 times, and the NIR DS luminescence increased by 87 times. The in situ temperature-dependent X-ray diffraction showed that the unit cell volume of Yb 2 W 3 O 12 :Er 3+ samples decreased as the temperature increased, which reduced the distance between rare earth ions and increased the energy transfer. We further prepared NTE Yb 2 W 3 O 12 :Er phosphor and positive thermal expansion (PTE) CaWO 4 :Yb/Er phosphor, which enhanced the relative luminescence intensity through thermal enhancement of NTE Yb 2 W 3 O 12 :Er phosphor and TQ of PTE CaWO 4 :Yb/Er phosphor. The mixed phosphor addresses the limitations of TQ and thermal coupling energy of temperature sensors for non-contact fluorescence intensity ratio (FIR) thermometers. The maximum relative sensitivity ( S r ) was 2.04% K −1 , 2.15% K −1 , 2.01% K −1 , and 2.09% K −1 in the infrared-red FIR ( I 860 /I 525 , I 860 / I 675 , I 1550 / I 525 , and I 1550 / I 675 ), respectively, indicating its practical application in temperature sensors.
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关键词
negative thermal expansion,near-infrared,multi-parametric luminescent thermometer
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