通过完整颅骨的三光子荧光成像对大脑进行高效发光体的简便合成，具有 AIE 特性。

Facile Synthesis of Efficient Luminogens with AIE Features for Three-Photon Fluorescence Imaging of the Brain through the Intact Skull.

机构信息

PCFM and GDHPPC Labs, School of Materials Science and Engineering, Sun Yat-sen University, Guangzhou, 510275, China.

State Key Laboratory of Modern Optical Instrumentations, Center for Optical and Electromagnetic Research, JORCEP (Sino-Swedish Joint Research Center of photonics), Zhejiang University, Hangzhou, 310058, China.

出版信息

Adv Mater. 2020 Jun;32(23):e2000364. doi: 10.1002/adma.202000364. Epub 2020 Apr 30.

DOI:10.1002/adma.202000364

PMID:32350951

Abstract

Visualization of the brain in its native environment is important for understanding common brain diseases. Herein, bright luminogens with remarkable aggregation-induced emission (AIE) characteristics and high quantum yields of up to 42.6% in the solid state are synthesized through facile reaction routes. The synthesized molecule, namely BTF, shows ultrabright far-red/near-infrared emission and can be fabricated into AIE dots by a simple nanoprecipitation procedure. Due to their high brightness, large Stokes shift, good biocompatibility, satisfactory photostability, and large three-photon absorption cross section, the AIE dots can be utilized as efficient fluorescent nanoprobes for in vivo brain vascular imaging through the intact skull by a three-photon fluorescence microscopy imaging technique. This is the first example of using AIE dots for the visualization of the cerebral stroke process through the intact skull of a mouse with high penetration depth and good image contrast. Such good results are anticipated to open up a new venue in the development of efficient emitters with strong nonlinear optical effects for noninvasive bioimaging of living brain.

摘要

在其天然环境中对大脑进行可视化对于理解常见的脑部疾病很重要。在此，通过简单的反应途径合成了具有显著聚集诱导发射（AIE）特性和高达 42.6%的固态量子产率的高亮敏剂。合成的分子，即 BTF，表现出超亮的远红/近红外发射，并可以通过简单的纳米沉淀程序制备成 AIE 点。由于其高亮度、大斯托克斯位移、良好的生物相容性、令人满意的光稳定性和大的三光子吸收截面，AIE 点可用作通过三光子荧光显微镜成像技术透过完整颅骨进行体内脑血管成像的高效荧光纳米探针。这是首次使用 AIE 点通过具有高穿透深度和良好图像对比度的小鼠完整颅骨可视化脑卒中风过程的例子。预计这些良好的结果将为开发具有强非线性光学效应的高效发射器开辟新途径，用于活体大脑的非侵入性生物成像。

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通过完整颅骨的三光子荧光成像对大脑进行高效发光体的简便合成，具有 AIE 特性。

Facile Synthesis of Efficient Luminogens with AIE Features for Three-Photon Fluorescence Imaging of the Brain through the Intact Skull.

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