生物成像和夜明珠持久性荧光粉在癌症诊断中的应用前景

Ruipu Shang, Feifei Yang, Ge Gao, Yu Luo, Hongpeng You, Lile Dong
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引用次数: 0

摘要

无机持久荧光粉具有发光寿命长、背景散射低、自发荧光少等特点,在癌症诊断方面具有巨大潜力。由于近红外光具有穿透深、分辨率高、自发荧光低和组织吸收等突出优势,持久性荧光粉可用于深层生物成像。我们重点介绍无机持久性荧光粉,强调其合成方法和在癌症诊断中的应用。我们提出了典型的合成方法,如高温固态法、热分解法、水热/溶热法和模板法,以获得用于生物体的小尺寸荧光粉。讨论了无机持久性荧光粉在不同激发下的发光机制,并探讨了包括镓酸盐、锗、铝酸盐和氟化物在内的有效基质。最后,总结了当前继续优化无机持久性荧光粉的方向,以及如何进一步克服癌症诊断中的挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Bioimaging and prospects of night pearls-based persistence phosphors in cancer diagnostics

Bioimaging and prospects of night pearls-based persistence phosphors in cancer diagnostics

Inorganic persistent phosphors feature great potential for cancer diagnosis due to the long luminescence lifetime, low background scattering, and minimal autofluorescence. With the prominent advantages of near-infrared light, such as deep penetration, high resolution, low autofluorescence, and tissue absorption, persistent phosphors can be used for deep bioimaging. We focus on highlighting inorganic persistent phosphors, emphasizing the synthesis methods and applications in cancer diagnostics. Typical synthetic methods such as the high-temperature solid state, thermal decomposition, hydrothermal/solvothermal, and template methods are proposed to obtain small-size phosphors for biological organisms. The luminescence mechanisms of inorganic persistent phosphors with different excitation are discussed and effective matrixes including galliumate, germanium, aluminate, and fluoride are explored. Finally, the current directions where inorganic persistent phosphors can continue to be optimized and how to further overcome the challenges in cancer diagnosis are summarized.

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