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Synthesis and Characterization of YAG:Ce~(3+)Nanophosphor Prepared by Flame Spray Pyrolysis

机译：火焰喷雾热解法制备的YAG：Ce〜（3+）纳米磷光体的合成与表征

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Among the various types of synthesis techniques for phosphors, flame spray pyrolysis (FSP) is a powerful method which is capable of producing particles with good crystallinity and high luminescence efficiency. In this work, we have studied the possibility of producing yellow light emitting Ce~(3+) doped Y_3Al_5O_(12) (YAG:Ce~(3+)) nanophosphor particles using FSP. The challenges in forming YAG arise because of its complex stoichiometry and existence of numerous crystalline states. 3 M of urea was added to increase the flame temperature. The as-prepared nanoparticles were annealed in the temperature range 800℃ to 1100℃ for 1 hour. As-prepared phosphor particles were found to be YAlO_3 which transformed to YAG when annealed above 900 ℃ . PL intensity of the phosphors increased with increase in annealing temperature. These results indicate the possibility of fabrication of high quality YAG:Ce~(3+) nanophosphor particles via a simple process.

机译：在各种类型的荧光粉合成技术中，火焰喷雾热解（FSP）是一种功能强大的方法，能够生产出具有良好结晶度和高发光效率的颗粒。在这项工作中，我们研究了使用FSP生产黄色发光Ce_（3+）掺杂Y_3Al_5O_（12）（YAG：Ce〜（3+））纳米磷光体颗粒的可能性。形成YAG的挑战是由于其复杂的化学计量比和许多晶态的存在。加入3M尿素以提高火焰温度。将所制备的纳米颗粒在800℃至1100℃的温度范围内退火1小时。制备的荧光粉颗粒为YAlO_3，在900℃以上退火时转变为YAG。磷光体的PL强度随着退火温度的升高而增加。这些结果表明可以通过简单的方法制备高质量的YAG：Ce〜（3+）纳米磷光体颗粒。

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《Phosphors for new-generation lighting》|2008年|1-6|共6页
会议地点 Honolulu HI(US);Honolulu HI(US)
作者
J.S. Lee; S. Gupta; P. Kumar; M. B. Ranade; R. Singh;
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Department of Materials Science Engineering, University of Florida, Gainesville, Florida 32611, USA;

Department of Materials Science Engineering, University of Florida, Gainesville, Florida 32611, USA;

Department of Materials Science Engineering, University of Florida, Gainesville, Florida 32611, USA;

Particle Engineering Research Center, University of Florida, Gainesville, Florida 32611, USA;

Department of Materials Science Engineering, University of Florida, Gainesville, Florida 32611, USA;

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正文语种 eng
中图分类电气照明;
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1. Luminescent properties of Y_2O_3:Eu~(3+) nanophosphor prepared from urea added precursor using flame spray pyrolysis [J] . Jae Seok Lee, Se Jin Kim, Tae Kon Kim, Journal of Materials Research . 2009,第8期

机译：Y_2O_3：Eu〜（3+）纳米磷光体的火焰喷涂热解法制得的添加脲前驱体的荧光性能
2. Upconversion in Er~(3+)-doped Gd_2O_3 nanocrystals prepared by propellant synthesis and flame spray pyrolysis [J] . Francesca Mangiarini, Rafik Naccache, Adolfo Speghini, Materials Research Bulletin . 2010,第8期

机译：推进剂合成和火焰喷涂热解法制备掺Er〜（3+）的Gd_2O_3纳米晶的上转换
3. Synthesis, structural and optical characterization of Nd: YAG powders via flame spray pyrolysis [J] . Sakar Neslihan, Gergeroglu Hazal, Akalin S. Alper, Optical Materials . 2020,第May期

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4. Synthesis and Characterization of YAG:Ce~(3+) Nanophosphor Prepared by Flame Spray Pyrolysis [C] . J. S. Lee, S. Gupta, P. Kumar, ECS Meeting/PRiME . 2009

机译：yag的合成与表征：火焰喷雾热解制备的Ce〜（3+）纳米磷
5. Synthesis and characterization of nanophosphors by flame spray pyrolysis. [D] . Lee, Jae Seok. 2009

机译：火焰喷涂热解法合成和表征纳米荧光粉。
6. Selectivity Enhancement by Using Double-Layer MOX-Based Gas Sensors Prepared by Flame Spray Pyrolysis (FSP) [O] . Julia Rebholz, Katharina Grossmann, David Pham, 2016

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7. Synthesis, characterization, thermo- and photoluminescence properties of Bi 3+ co-doped Gd 2O 3:Eu 3+ nanophosphors [O] . Dhananjaya, N., Nagabhushana, H., Nagabhushana, B.M., 2012

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Synthesis and Characterization of YAG:Ce~(3+)Nanophosphor Prepared by Flame Spray Pyrolysis

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