近红外发射钙钛矿多功能生物成像。

IF 8.3 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Small Science Pub Date : 2025-02-21 eCollection Date: 2025-06-01 DOI:10.1002/smsc.202500033

Tianchi Wang, Jiabo Sun, Zhaowei Teng, Shuyi Yao, Junheng Yuan, Lulu Han, Dedan Mu, Hao Song, Xue Yu, Xuhui Xu

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引用次数: 0

摘要

生物成像具有显著的非侵入性，超高分辨率和灵敏度，可以检测骨骼，器官和组织的病变。然而，由于需要具有不同响应范围的多个光电探测器，实现更完整的体内信息受到了挑战。本文通过一个InGaAs探测器实现了Cs2AgInCl6:Yb3+钙钛矿的多功能生物成像，以获得更好的组织表现。外源掺杂改变了Cs2AgInCl6主体的局部结构对称性，破坏了奇偶禁止跃迁，降低了电子-声子耦合强度，从而使钙钛矿的近红外（NIR）强度大幅提高了40倍。此外，x射线激发的近红外光输出是商用Bi4Ge3O12闪烁体的2.83倍。由于高效的近红外发射，多功能钙钛矿薄膜赋予了生物体内组织详细信息的多功能生物成像，这从根本上为促进生物成像技术与组织呈现的综合获取提供了可行的途径。

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Near-Infrared Emission Perovskites for Multifunctional Bioimaging.

Bioimaging with remarkable noninvasive nature, ultrahigh resolution and sensitivity allows detection of pathologies of bones, organs, and tissues. Nevertheless, the achievement of more complete information in vivo is challenged by the necessity of multiple photodetectors with diverse response ranges. Herein, a multifunctional bioimaging with Cs₂AgInCl₆:Yb³⁺ perovskites via a single InGaAs detector for superior tissue presentation is realized in this work. Co-incorporation of foreign dopant contributes to alterations of local structural symmetry of the Cs₂AgInCl₆ host, disruption of parity-forbidden transitions, and reduction in electron-phonon coupling strength, thereby boosting the near-infrared (NIR) intensity by 40-fold of the corresponding perovskites drastically. Moreover, an X-ray excited NIR light output is 2.83 times that of commercial Bi₄Ge₃O₁₂ scintillators. Thanks to the efficient NIR emission, the versatile perovskites film endows a multifunctional bioimaging with detailed information of biological tissue in vivo, which fundamentally offers viable avenues for promoting bioimaging technology with integrated access of tissue presentation.

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来源期刊

Small Science

CiteScore

14.00

自引率

2.40%

发文量

期刊介绍： Small Science is a premium multidisciplinary open access journal dedicated to publishing impactful research from all areas of nanoscience and nanotechnology. It features interdisciplinary original research and focused review articles on relevant topics. The journal covers design, characterization, mechanism, technology, and application of micro-/nanoscale structures and systems in various fields including physics, chemistry, materials science, engineering, environmental science, life science, biology, and medicine. It welcomes innovative interdisciplinary research and its readership includes professionals from academia and industry in fields such as chemistry, physics, materials science, biology, engineering, and environmental and analytical science. Small Science is indexed and abstracted in CAS, DOAJ, Clarivate Analytics, ProQuest Central, Publicly Available Content Database, Science Database, SCOPUS, and Web of Science.