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Deep high contrast microscopic cell imaging using three-photon luminescence of β-(NaYF4:Er3+/NaYF4) nanoprobe excited by 1480-nm CW laser of only 1.5-mW

机译：使用仅由1.5mW的1480 nm CW激光器激发的β-（NaYF4：Er3 + / NaYF4）纳米探针的三光子发光进行的深高对比度显微细胞成像

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摘要

It is challenging to achieve deep microscopic imaging for the strong scattering in biotissue. An efficient three-photon luminescence can effectively increase the penetration depth. Here we report that β-NaYF4: Er³⁺/NaYF4 UCNPs were excited by a 1480-nm CW-laser and emitted 543/653-nm light through a three-photon process. With the merit of the hexagonal crystal phase, sub-milliwatt laser power was utilized to excite the UCNP-probed cells to minimize the heating effect. The polymer-coated UCNPs were shown to be harmless to cells. The deep, high contrast in vitro microscopic imaging was implemented through an artificial phantom. Imaging depth of 800 μm was achieved using only 1.5 mW excitation and a 0.7 NA objective. The green/red emission intensities ratio after penetrating the phantom was studied, indicating that longer emission wavelength is preferred for deep multiphoton microscopy. The proposed and demonstrated β-UCNPs would have great potential in three-photon microscopy.

机译：对于生物组织中的强散射而言，实现深层显微成像具有挑战性。高效的三光子发光可以有效地增加穿透深度。在这里我们报道β-NaYF4：Er ^{3 + / NaYF4 UCNPs被1480nm的连续波激光激发并通过三光子过程发出543 / 653nm的光。凭借六方晶相的优点，亚兆瓦激光功率被用来激发UCNP探测的电池，以最大程度地降低加热效果。聚合物包被的UCNP被证明对细胞无害。通过人工幻影实现了深层，高对比度的体外显微成像。仅使用1.5 mW激发和0.7 NA物镜即可实现800μm的成像深度。研究了穿透体模后的绿色/红色发射强度比，表明对于深多光子显微镜，较长的发射波长是优选的。提出并证明的β-UCNPs在三光子显微镜中具有巨大的潜力。}

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期刊名称 Biomedical Optics Express
作者
Jing Liu; Ruitao Wu; Nana Li; Xin Zhang; Qiuqiang Zhan; Sailing He;
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作者单位

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年(卷),期 2015(6),5
年度 2015
页码 1857–1866
总页数 10
原文格式 PDF
正文语种
中图分类放射医学;影像诊断学;生化遗传学;生化药理学;
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外文文献

1. Deep, high contrast microscopic cell imaging using three-photon luminescence of β-(NaYF₄:Er3+/NaYF₄) nanoprobe excited by 1480-nm CW laser of only 1.5-mW [J] . Jing Liu, Ruitao Wu, Nana Li, Biomedical Optics Express . 2015,第5期

机译：β-（NaYF _{4 ：Er 3 + / NaYF _{4 ）纳米探针的三光子发光深度高对比度显微细胞成像1480 nm连续波激光器仅1.5 mW}}
2. A facile synthesis of NaYF4:Yb3+/Er3+ nanoparticles with tunable multicolor upconversion luminescence properties for cell imaging [J] . Hu Yueli, Sun Yuxiu, Li Yan, RSC Advances . 2014,第82期

机译：NaYF4：Yb3 + / Er3 +纳米粒子的简便合成，具有可调节的多色上转换发光特性，可用于细胞成像
3. Three-Photon Luminescence of Gold Nanorods Excited by 1040 nm Femtosecond Laser for High Contrast Tissue and In Vivo Imaging [J] . Shaowei Wang, Xinyuan Zhao, Hequn Zhang, Journal of Physics: Conference Series . 2016,第1期

机译：通过1040nm Femtosecond激光激发的金纳米棒的三光子发光，用于高对比度组织和体内成像
4. Three-photon fluorescence microscopic imaging by a compact Er-doped fiber laser at 1.6 μm [C] . Jiqiang Kang, Cihang Kong, Pingping Feng, Conference on Lasers and Electro-Optics . 2018

机译：通过紧凑的ER掺杂光纤激光器为1.6μm的三光子荧光微观成像
5. Surface Plasmon Enhanced Upconversion Luminescence of Yb 3+/ Tm3+ and Yb3+/ Er3+ Systems Doped in NaYF4 on Au Nanopillar Arrays. [D] . Luu, Quoc Anh Nguyen. 2014

机译：金纳米柱阵列上掺入NaYF4的Yb 3 + / Tm3 +和Yb3 + / Er3 +系统的表面等离子体增强上转换发光。
6. Enhancing Upconversion Luminescence Efficiency viaChiral β-NaYF4:Er3+/Yb3+ Microcrystals Based on Mesoscale Regulation [O] . Wen Qi, Qian Wu, Joseph G. Shapter, 2018

机译：通过提高上转换发光效率基于中尺度调控的手性β-NaYF4：Er3 + / Yb3 +微晶
7. Preparation and upconversion luminescence cell imaging of O-carboxymethyl chitosan-functionalized NaYF4:Yb3+/Tm3+/Er3+ nanoparticles [O] . Hao Li, LeYu Wang 2013

机译：O-羧甲基壳聚糖官能化的NaYF4：Yb3 + / Tm3 + / Er3 +纳米粒子的制备及上转换发光细胞成像

Deep high contrast microscopic cell imaging using three-photon luminescence of β-(NaYF4:Er3+/NaYF4) nanoprobe excited by 1480-nm CW laser of only 1.5-mW

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