Bi-functional NaLuF4:Gd~(3+)/Yb~(3+)/Tm~(3+) nanocrystals: structure controlled synthesis, near-infrared upconversion emission and tunable magnetic properties

Songjun Zeng; Junjie Xiao; Qibin Yang

首页> 外文期刊>Journal of Materials Chemistry: An Interdisciplinary Journal dealing with Synthesis, Structures, Properties and Applications of Materials, Particulary Those Associated with Advanced Technology >Bi-functional NaLuF4:Gd~(3+)/Yb~(3+)/Tm~(3+) nanocrystals: structure controlled synthesis, near-infrared upconversion emission and tunable magnetic properties

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Bi-functional NaLuF4:Gd~(3+)/Yb~(3+)/Tm~(3+) nanocrystals: structure controlled synthesis, near-infrared upconversion emission and tunable magnetic properties

机译：双功能NaLuF4：Gd〜（3 +）/ Yb〜（3 +）/ Tm〜（3+）纳米晶体：结构控制合成，近红外上转换发射和可调磁性能

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In this paper, fluorescent and magnetic bi-functional NaLuF4:Ln (Ln = Gd~(3+), Yb~(3+), Tm~(3+)) nanocrystals were synthesized via a simple hydrothermal method using oleic acid as capping ligand. The crystal phase, size, upconversion (UC) properties, and magnetization of the nanocrystals can be readily modified by doping with Gd~(3+). The results reveal that Gd~(3+) addition can promote the transformation from the cubic to the hexagonal phase and reduce the size. In addition, NaLuF4:Ln (Ln = Gd~(3+), Yb~(3+), Tm~(3+)) nanocrystals present efficient near infrared (NIR) to NIR emission, which is beneficial for in vivo biomedical applications due to the increased penetration depth and low radiation damage of NIR light in bio-tissues. More importantly, owing to the large magnetic moment of Gd~(3+), the Gd~(3+)-doped NaLuF4 nanocrystals also present excellent paramagnetic properties at room temperature. Therefore, it is expected that these nanocrystals can be used as promising dual-modal nanoprobes for optical bioimaging and magnetic resonance imaging (MRI), and may have potential applications in bioseparation.

机译：本文以油酸为封端，通过简单的水热法合成了荧光和磁性双功能NaLuF4：Ln（Ln = Gd〜（3+），Yb〜（3+），Tm〜（3+））纳米晶体。配体。通过掺杂Gd〜（3+）可以很容易地改变纳米晶体的晶相，尺寸，上转换（UC）特性和磁化强度。结果表明，Gd〜（3+）的加入可以促进立方相向六方相的转变，并减小其尺寸。此外，NaLuF4：Ln（Ln = Gd〜（3 +），Yb〜（3 +），Tm〜（3+））纳米晶体呈现出有效的近红外（NIR）到NIR发射，这对于体内生物医学应用是有益的由于增加了生物组织中近红外光的穿透深度和低辐射损伤。更重要的是，由于Gd〜（3+）的大磁矩，掺杂Gd〜（3+）的NaLuF4纳米晶体在室温下也具有出色的顺磁性能。因此，期望这些纳米晶体可用作光学生物成像和磁共振成像（MRI）的有前途的双峰纳米探针，并且在生物分离中可能具有潜在的应用。

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《Journal of Materials Chemistry: An Interdisciplinary Journal dealing with Synthesis, Structures, Properties and Applications of Materials, Particulary Those Associated with Advanced Technology》 |2012年第19期|共5页
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Songjun Zeng; Junjie Xiao; Qibin Yang;
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3. 1-xY x) 0.78F 5: 20?mol% Yb 3+, 2?mol% Tm 3+ (0 ≤x ≤1.0) solid solution nanocrystals: A facile hydrothermal controlled synthesis, enhanced upconversion luminescent and paramagnetic properties]]> [J] . Tao Li, Yanmei Li, Ran Luo, Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2018,第期

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4. Ultraviolet Upconversion Emissions of Gd~(3+) in β-NaLuF_4: Yb~(3+),Tm~(3+),Gd~(3+) Nanocrystals [J] . Weiye Song, Xingyuan Guo, Guanghui He, Journal of nanoscience and nanotechnology . 2014,第5期

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机译：双功能NaLuF4：Gd3 + / Yb3 + / Tm3 +纳米晶体：结构受控的合成，近红外上转换发射和可调磁性能
9. Electron-Paramagnetic-Resonance Spectra of Nd(3+),Dy(3+),Er(3+),and Yb(3+) in Lithium Yttrium Flouride, [R] . sattler,joseph p. nemarich,joseph 1971

机译：钇锂钇中Nd（3 +），Dy（3 +），Er（3 +）和Yb（3+）的电子顺磁共振谱，

Bi-functional NaLuF4:Gd~(3+)/Yb~(3+)/Tm~(3+) nanocrystals: structure controlled synthesis, near-infrared upconversion emission and tunable magnetic properties

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