利用直接和间接暗态形成的反斯托克斯荧光显微镜技术。

Anti-Stokes fluorescence microscopy using direct and indirect dark state formation.

机构信息

Nanoscience Center and Department of Chemistry, University of Copenhagen, Universitetsparken 5, Copenhagen 2100, Denmark.

出版信息

Chem Commun (Camb). 2018 May 1;54(36):4569-4572. doi: 10.1039/c8cc01521j.

DOI:10.1039/c8cc01521j

PMID:29664091

Abstract

Measurements on biological samples are often hampered by auto-fluorescence from inherent compounds in tissue or cells, limiting the achievable contrast. Both the signal of interest and the auto-fluorescence are usually detected on the Stokes side of the excitation laser. In this communication, we present two new microscopy modalities, based on the emission of a red-emitting DNA-stabilized silver nanocluster (DNA-AgNC). Its bright fluorescence can be generated on the anti-Stokes side of the readout laser, allowing easy spectral separation of the signal of interest from the Stokes side auto-fluorescence.

摘要

生物样本的测量常常受到组织或细胞内固有化合物的自发荧光的阻碍，限制了可达到的对比度。感兴趣的信号和自发荧光通常都在激发激光的斯托克斯侧被检测到。在本通讯中，我们提出了两种新的显微镜模式，基于红色发射的 DNA 稳定的银纳米团簇（DNA-AgNC）的发射。其明亮的荧光可以在读出激光的反斯托克斯侧产生，从而可以轻松地将感兴趣的信号与斯托克斯侧的自发荧光进行光谱分离。

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利用直接和间接暗态形成的反斯托克斯荧光显微镜技术。

Anti-Stokes fluorescence microscopy using direct and indirect dark state formation.

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