Cubic or monoclinic Y_2O_3:Eu nanoparticles by flame spray pyrolysis

机译：火焰喷雾热解法制备立方或单斜晶Y_2O_3：Eu纳米粒子

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Monocrystalline cubic and/or monoclinic Y_2O_3:Eu~(3+) nanoparticles (10-50 nm) were synthesized continuously without post-processing by single-step flame spray pyrolysis (FSP). These particles were characterized by X-ray diffraction (XRD), nitrogen adsorption (BET) and transmission electron microscopy (TEM). Photo-luminescence (PL) emission was measured as well as the time-resolved PL-intensity decay. Synthesis of single and mixed crystal phase (monoclinic and/or cubic) Y_2O_3:Eu~(3+) nanoparticles was achieved by controlling the precursor combustion conditions in the flame, hence the temperature profile (maximum flame temperature, cooling rate) as well as high temperature residence time which resulted in different particle growth histories which in turn affected particle characteristics as crystal phase, size and morphology. Longer high temperature residence time of the particles resulted in cubic nanoparticles with lower maximum PL-intensity than measured by commercial micron-sized bulk Y_2O_3:Eu~(3+) phosphor powder.

机译：连续合成单晶立方和/或单斜晶Y_2O_3：Eu〜（3+）纳米粒子（10-50 nm），而无需通过单步火焰喷雾热解（FSP）进行后处理。这些颗粒通过X射线衍射（XRD），氮吸附（BET）和透射电子显微镜（TEM）表征。测量了光致发光（PL）发射以及时间分辨的PL强度衰减。 Y_2O_3：Eu〜（3+）单晶相和混合晶相（单斜晶和/或立方晶）Y_2O_3：Eu〜（3+）纳米粒子的合成是通过控制火焰中的前驱物燃烧条件，从而实现温度分布（最高火焰温度，冷却速率）以及高温停留时间会导致不同的颗粒生长历史，进而影响颗粒的晶体相，尺寸和形态。颗粒更长的高温停留时间导致立方纳米颗粒的最大PL强度低于商业微米级的块体Y_2O_3：Eu〜（3+）荧光粉的测量值。

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《Nano Science and Technology Institute(NSTI) Nanotechnology Conference and Trade Show(NSTI Nanotech 2006) vol.1》|2006年|385-388|共4页
会议地点 Boston,MA(US)
作者
A. Camenzind; R. Strobel; S.E. Pratsinis;
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Swiss Federal Institute of Technology Particle Technology Laboratory Institute of Process Engineering Department of Mechanical and Process Engineering CH-8092 Zurich Switzerland;

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flame spray pyrolysis; Y_2O_3:Eu~(3+); nanophosphors; monoclinic; cubic;

机译：火焰喷雾热解Y_2O_3：Eu〜（3+）;纳米磷;单斜立方体;

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专利

1. Cubic or monoclinic Y2O3 : Eu3+ nanoparticles by one step flame spray pyrolysis [J] . Camenzind A, Strobel R, Pratsinis SE Chemical Physics Letters . 2005,第4a6期

机译：一步火焰喷雾热解法制备立方或单斜晶Y2O3：Eu3 +纳米粒子
2. Continuous Single-Step Fabrication of Nonaggregated, Size-Controlled and Cubic Nanocrystalline Y_2O_3:Eu~(3+) Phosphors Using Flame Spray Pyrolysis [J] . Hankwon CHANG, I. Wuled LENGGORO, Kikuo OKUYAMA, Japanese Journal of Applied Physics. Part 1, Regular Papers & Short Notes . 2004,第6A期

机译：火焰喷雾热解法连续制备非聚集，尺寸可控的立方纳米Y_2O_3：Eu〜（3+）荧光粉
3. Photoluminescence of Eu~(3+): Y_2O_3 as an indication of crystal structure and particle size in nanoparticles synthesized by flame spray pyrolysis [J] . Dosi Dosev, Bing Guo, Ian M.Kennedy Journal of Aerosol Science . 2006,第3期

机译：Eu〜（3+）：Y_2O_3的光致发光指示火焰喷雾热解法合成纳米颗粒的晶体结构和粒径
4. Cubic or monoclinic Y_2O_3:Eu nanoparticles by flame spray pyrolysis [C] . A. Camenzind, R. Strobel, S.E. Pratsinis Nano Science and Technology Institute(NSTI) Nanotechnology Conference and Trade Show(NSTI Nanotech 2006) vol.1 . 2006

机译：火焰喷雾热解法制备立方或单斜晶Y_2O_3：Eu纳米粒子
5. Mixed-metal oxide nanopowders by liquid-feed flame spray pyrolysis (LF-FSP): Synthesis and processing of core-shell nanoparticles [D] . Kim, Min 2008

机译：液体进料火焰喷雾热解（LF-FSP）的混合金属氧化物纳米粉末：核壳纳米粒子的合成和加工
6. A simple method to set the spray properties for flame spray pyrolysis production of nanoparticles [O] . Mustafi A. Alhaleeb, Nesrin E. Machin 2020

机译：一种简单的方法用于设定纳米颗粒的火焰喷雾热解产生的喷雾性能
7. A simple method to set the spray properties for flame spray pyrolysis production of nanoparticles [O] . Mustafi A. Alhaleeb, Nesrin E. Machin 2020

机译：一种简单的方法，用于设定纳米颗粒的火焰喷雾热解产生的喷雾性能

Cubic or monoclinic Y_2O_3:Eu nanoparticles by flame spray pyrolysis

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