Up-conversion luminescence, thermometry, and optical heating properties of Er- and Yb-doped KLaNbO submicro-particles synthesized by a simple molten salt method

A series of Er 3+ - and Yb 3+ -doped K 2 LaNb 5 O 15 (KLN: x Er 3+ /Yb 3+ ) up-conversion (UC) submicro-particles have been synthesized for the first time by a simple and low-cost molten salt (MS) approach. X-ray diffraction (XRD) was performed to analyze the phase and structure, and the prepared KL...

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Veröffentlicht in:	Dalton transactions : an international journal of inorganic chemistry 2018-08, Vol.47 (33), p.11337-11345
Hauptverfasser:	Li, Mengzhu, Shi, Yong, Zhao, Chuanzhen, Yang, Fengming, Li, Qiuyue, Zhang, Xinxing, Wu, Shengcheng, Chen, Haiyan, Liu, Junming, Wei, Tong
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container_title	Dalton transactions : an international journal of inorganic chemistry
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creator	Li, Mengzhu Shi, Yong Zhao, Chuanzhen Yang, Fengming Li, Qiuyue Zhang, Xinxing Wu, Shengcheng Chen, Haiyan Liu, Junming Wei, Tong
description	A series of Er 3+ - and Yb 3+ -doped K 2 LaNb 5 O 15 (KLN: x Er 3+ /Yb 3+ ) up-conversion (UC) submicro-particles have been synthesized for the first time by a simple and low-cost molten salt (MS) approach. X-ray diffraction (XRD) was performed to analyze the phase and structure, and the prepared KLN: x Er 3+ /Yb 3+ samples exhibited a single phase tetragonal tungsten bronze (TTB) structure. The morphologies were characterized by scanning electron microscopy (SEM), and submicro-rod-like particles were obtained for all samples. Under 980 nm excitation, KLN: x Er 3+ /Yb 3+ emitted bright green and weak red emissions which arose from the intra-4f transitions of Er 3+ ions. The UC emission intensities and R R/G (the intensity ratio between red and green emissions) were disclosed to be tightly dependent on the Yb 3+ ion concentration, and the involved UC luminescence mechanism was studied. Meanwhile, the slope of log I -log P plots displayed an evident reduction with a T s (sintering temperature) increase, which was ascribed to the saturation effect coming from the competition between UC processes and linear decay. Furthermore, temperature-dependent UC behavior and temperature sensing properties of KLN: x Er 3+ /Yb 3+ were probed based on the fluorescence intensity ratio (FIR) technique of UC green emission. The maximum sensor sensitivity ( S ) of KLN:0.04Er 3+ /Yb 3+ ( T s = 900 °C) and KLN:0.16Er 3+ /Yb 3+ ( T s = 900 °C) was determined to be as high as 10.90 × 10 −3 and 12.27 × 10 −3 K −1 , respectively. We also showed that the particle size has an evident influence on S , which can be qualitatively interpreted by J-O theory. Thermal-cycling measurements were conducted at different temperatures, and good reliability and repeatability were confirmed. In addition, an obvious optical heating effect was also realized and the variation of temperature induced with a laser was about 32 K. These results reveal that KLN: x Er 3+ /Yb 3+ submicroparticles with high sensor sensitivity and an obvious laser-induced thermal effect are suitable for future optical thermometers and optical heaters. Variation of the calculated slope values versus T s (a) and S plots of KLN:0.04Er 3+ /Yb 3+ prepared at different T s values (b).
doi_str_mv	10.1039/c8dt02069h
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X-ray diffraction (XRD) was performed to analyze the phase and structure, and the prepared KLN: x Er 3+ /Yb 3+ samples exhibited a single phase tetragonal tungsten bronze (TTB) structure. The morphologies were characterized by scanning electron microscopy (SEM), and submicro-rod-like particles were obtained for all samples. Under 980 nm excitation, KLN: x Er 3+ /Yb 3+ emitted bright green and weak red emissions which arose from the intra-4f transitions of Er 3+ ions. The UC emission intensities and R R/G (the intensity ratio between red and green emissions) were disclosed to be tightly dependent on the Yb 3+ ion concentration, and the involved UC luminescence mechanism was studied. Meanwhile, the slope of log I -log P plots displayed an evident reduction with a T s (sintering temperature) increase, which was ascribed to the saturation effect coming from the competition between UC processes and linear decay. Furthermore, temperature-dependent UC behavior and temperature sensing properties of KLN: x Er 3+ /Yb 3+ were probed based on the fluorescence intensity ratio (FIR) technique of UC green emission. The maximum sensor sensitivity ( S ) of KLN:0.04Er 3+ /Yb 3+ ( T s = 900 °C) and KLN:0.16Er 3+ /Yb 3+ ( T s = 900 °C) was determined to be as high as 10.90 × 10 −3 and 12.27 × 10 −3 K −1 , respectively. We also showed that the particle size has an evident influence on S , which can be qualitatively interpreted by J-O theory. Thermal-cycling measurements were conducted at different temperatures, and good reliability and repeatability were confirmed. In addition, an obvious optical heating effect was also realized and the variation of temperature induced with a laser was about 32 K. These results reveal that KLN: x Er 3+ /Yb 3+ submicroparticles with high sensor sensitivity and an obvious laser-induced thermal effect are suitable for future optical thermometers and optical heaters. Variation of the calculated slope values versus T s (a) and S plots of KLN:0.04Er 3+ /Yb 3+ prepared at different T s values (b).</description><identifier>ISSN: 1477-9226</identifier><identifier>EISSN: 1477-9234</identifier><identifier>DOI: 10.1039/c8dt02069h</identifier><ispartof>Dalton transactions : an international journal of inorganic chemistry, 2018-08, Vol.47 (33), p.11337-11345</ispartof><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,776,780,27901,27902</link.rule.ids></links><search><creatorcontrib>Li, Mengzhu</creatorcontrib><creatorcontrib>Shi, Yong</creatorcontrib><creatorcontrib>Zhao, Chuanzhen</creatorcontrib><creatorcontrib>Yang, Fengming</creatorcontrib><creatorcontrib>Li, Qiuyue</creatorcontrib><creatorcontrib>Zhang, Xinxing</creatorcontrib><creatorcontrib>Wu, Shengcheng</creatorcontrib><creatorcontrib>Chen, Haiyan</creatorcontrib><creatorcontrib>Liu, Junming</creatorcontrib><creatorcontrib>Wei, Tong</creatorcontrib><title>Up-conversion luminescence, thermometry, and optical heating properties of Er- and Yb-doped KLaNbO submicro-particles synthesized by a simple molten salt method</title><title>Dalton transactions : an international journal of inorganic chemistry</title><description>A series of Er 3+ - and Yb 3+ -doped K 2 LaNb 5 O 15 (KLN: x Er 3+ /Yb 3+ ) up-conversion (UC) submicro-particles have been synthesized for the first time by a simple and low-cost molten salt (MS) approach. X-ray diffraction (XRD) was performed to analyze the phase and structure, and the prepared KLN: x Er 3+ /Yb 3+ samples exhibited a single phase tetragonal tungsten bronze (TTB) structure. The morphologies were characterized by scanning electron microscopy (SEM), and submicro-rod-like particles were obtained for all samples. Under 980 nm excitation, KLN: x Er 3+ /Yb 3+ emitted bright green and weak red emissions which arose from the intra-4f transitions of Er 3+ ions. The UC emission intensities and R R/G (the intensity ratio between red and green emissions) were disclosed to be tightly dependent on the Yb 3+ ion concentration, and the involved UC luminescence mechanism was studied. Meanwhile, the slope of log I -log P plots displayed an evident reduction with a T s (sintering temperature) increase, which was ascribed to the saturation effect coming from the competition between UC processes and linear decay. Furthermore, temperature-dependent UC behavior and temperature sensing properties of KLN: x Er 3+ /Yb 3+ were probed based on the fluorescence intensity ratio (FIR) technique of UC green emission. The maximum sensor sensitivity ( S ) of KLN:0.04Er 3+ /Yb 3+ ( T s = 900 °C) and KLN:0.16Er 3+ /Yb 3+ ( T s = 900 °C) was determined to be as high as 10.90 × 10 −3 and 12.27 × 10 −3 K −1 , respectively. We also showed that the particle size has an evident influence on S , which can be qualitatively interpreted by J-O theory. Thermal-cycling measurements were conducted at different temperatures, and good reliability and repeatability were confirmed. In addition, an obvious optical heating effect was also realized and the variation of temperature induced with a laser was about 32 K. These results reveal that KLN: x Er 3+ /Yb 3+ submicroparticles with high sensor sensitivity and an obvious laser-induced thermal effect are suitable for future optical thermometers and optical heaters. 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X-ray diffraction (XRD) was performed to analyze the phase and structure, and the prepared KLN: x Er 3+ /Yb 3+ samples exhibited a single phase tetragonal tungsten bronze (TTB) structure. The morphologies were characterized by scanning electron microscopy (SEM), and submicro-rod-like particles were obtained for all samples. Under 980 nm excitation, KLN: x Er 3+ /Yb 3+ emitted bright green and weak red emissions which arose from the intra-4f transitions of Er 3+ ions. The UC emission intensities and R R/G (the intensity ratio between red and green emissions) were disclosed to be tightly dependent on the Yb 3+ ion concentration, and the involved UC luminescence mechanism was studied. Meanwhile, the slope of log I -log P plots displayed an evident reduction with a T s (sintering temperature) increase, which was ascribed to the saturation effect coming from the competition between UC processes and linear decay. Furthermore, temperature-dependent UC behavior and temperature sensing properties of KLN: x Er 3+ /Yb 3+ were probed based on the fluorescence intensity ratio (FIR) technique of UC green emission. The maximum sensor sensitivity ( S ) of KLN:0.04Er 3+ /Yb 3+ ( T s = 900 °C) and KLN:0.16Er 3+ /Yb 3+ ( T s = 900 °C) was determined to be as high as 10.90 × 10 −3 and 12.27 × 10 −3 K −1 , respectively. We also showed that the particle size has an evident influence on S , which can be qualitatively interpreted by J-O theory. Thermal-cycling measurements were conducted at different temperatures, and good reliability and repeatability were confirmed. In addition, an obvious optical heating effect was also realized and the variation of temperature induced with a laser was about 32 K. These results reveal that KLN: x Er 3+ /Yb 3+ submicroparticles with high sensor sensitivity and an obvious laser-induced thermal effect are suitable for future optical thermometers and optical heaters. Variation of the calculated slope values versus T s (a) and S plots of KLN:0.04Er 3+ /Yb 3+ prepared at different T s values (b).</abstract><doi>10.1039/c8dt02069h</doi><tpages>9</tpages></addata></record>
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title	Up-conversion luminescence, thermometry, and optical heating properties of Er- and Yb-doped KLaNbO submicro-particles synthesized by a simple molten salt method
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