Simultaneous bifunctional application of solid-state lighting and ratiometric optical thermometer based on double perovskite LiLaMgWO 6 :Er 3+ thermochromic phosphors.
Weiguang RanHyeon Mi NohSung Heum ParkBo Ram LeeJung Hwan KimJung Hyun JeongJinsheng ShiGuangzeng LiuPublished in: RSC advances (2019)
Realization of simultaneous, efficient bifunctional application of thermochromic phosphors on light emitting diodes (LEDs) and as ratiometric thermometers is significant. Herein, doped Er 3+ ions are introduced as an activator into double perovskite LiLaMgWO 6 host lattice. The developed phosphors can be efficiently excited by a near-ultraviolet LED chip and show bright green emission, mainly at 527 and 543 nm, as well as very low thermal quenching. Their chemical stability is studied, demonstrating excellent application potentials. Furthermore, the temperature sensing properties of LiLaMgWO 6 :0.01Er 3+ were analyzed in the wide range of 303-483 K and show a good exponential relationship between ratiometric intensity and temperature ( R 2 > 0.999), as well as high sensitivity (2.24% K -1 ). Such a system not only optimizes the performance in solid light emitting but also provides an excellent platform for designing high-sensitivity optical thermometry.
Keyphrases
- light emitting
- quantum dots
- solid state
- energy transfer
- fluorescent probe
- living cells
- sensitive detection
- endoplasmic reticulum
- estrogen receptor
- hydrogen peroxide
- highly efficient
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- breast cancer cells
- high throughput
- room temperature
- high speed
- metal organic framework
- high efficiency
- nuclear factor
- immune response
- nitric oxide
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- solar cells