掺钕（3+）上转换纳米荧光粉：具有最小化加热效应的高效活体生物成像探针。

Nd(3+)-sensitized upconversion nanophosphors: efficient in vivo bioimaging probes with minimized heating effect.

机构信息

Beijing National Laboratory for Molecular Sciences, State Key Laboratory of Rare Earth Materials Chemistry and Applications & PKU-HKU Joint Laboratory in Rare Earth Materials and Bioinorganic Chemistry, College of Chemistry and Molecular Engineering, Peking University, Beijing 100871, China.

出版信息

ACS Nano. 2013 Aug 27;7(8):7200-6. doi: 10.1021/nn402601d. Epub 2013 Jul 23.

DOI:10.1021/nn402601d

PMID:23869772

Abstract

Upconversion (UC) process in lanthanide-doped nanomaterials has attracted great research interest for its extensive biological applications in vitro and in vivo, benefiting from the high tissue penetration depth of near-infrared excitation light and low autofluorescence background. However, the 980 nm laser, typically used to trigger the Yb(3+)-sensitized UC process, is strongly absorbed by water in biological structures and could cause severe overheating effect. In this article, we report the extension of the UC excitation spectrum to shorter wavelengths, where water has lower absorption. This is realized by further introducing Nd(3+) as the sensitizer and by building a core/shell structure to ensure successive Nd(3+) → Yb(3+) → activator energy transfer. The efficacy of this Nd(3+)-sensitized UC process is demonstrated in in vivo imaging, and the results confirmed that the laser-induced local overheating effect is greatly minimized.

摘要

上转换（UC）过程在镧系掺杂纳米材料中引起了极大的研究兴趣，因为它在体外和体内具有广泛的生物学应用，受益于近红外激发光的高组织穿透深度和低自发荧光背景。然而，用于触发 Yb(3+)敏化 UC 过程的 980nm 激光强烈地被生物结构中的水吸收，并可能导致严重的过热效应。在本文中，我们报告了 UC 激发光谱向较短波长的扩展，在该波长下水的吸收较低。这是通过进一步引入 Nd(3+)作为敏化剂并构建核/壳结构来实现的，以确保连续的 Nd(3+)→Yb(3+)→激活剂能量转移。Nd(3+)敏化 UC 过程的功效在体内成像中得到了验证，结果证实激光诱导的局部过热效应大大降低。

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掺钕（3+）上转换纳米荧光粉：具有最小化加热效应的高效活体生物成像探针。

Nd(3+)-sensitized upconversion nanophosphors: efficient in vivo bioimaging probes with minimized heating effect.

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