通过将染料系统嵌入聚合物纳米胶囊，实现细胞内的湮灭上转换。

Annihilation upconversion in cells by embedding the dye system in polymeric nanocapsules.

机构信息

Max Planck Institute for Polymer Research, Mainz, Germany.

出版信息

Macromol Biosci. 2011 Jun 14;11(6):772-8. doi: 10.1002/mabi.201000451. Epub 2011 Mar 7.

DOI:10.1002/mabi.201000451

Abstract

The first energetically conjoined TTA-assisted photon energy upconversion operating in cell tissue is described. The synthesized nanocapsules with the encapsulated UC dye system consisting of an emitter and a sensitizer show very efficient UC emission in aqueous dispersion under extremely low excitation intensity down to 0.05 W · cm(-2) so that tissue and cells are not affected by the excitation light. The demonstrated sub-linear intensity dependence of the UC emission is of crucial importance for life-science applications as the UC photon could serve as a local or in situ optical excitation source for subsequent light-triggered processes.

摘要

首次描述了在细胞组织中运行的首个基于 TTA 的协同光子能量上转换。合成的纳米胶囊具有封装的 UC 染料系统，由一个发射器和一个敏化剂组成，在极低的激发强度（低至 0.05 W·cm(-2)）下在水分散体中显示出非常高效的 UC 发射，从而使组织和细胞不受激发光的影响。所展示的 UC 发射的次线性强度依赖性对于生命科学应用至关重要，因为 UC 光子可用作后续光触发过程的局部或原位光学激发源。

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通过将染料系统嵌入聚合物纳米胶囊，实现细胞内的湮灭上转换。

Annihilation upconversion in cells by embedding the dye system in polymeric nanocapsules.

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