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Facilely Achieving Near-Infrared-II J-Aggregates through Molecular Bending on a Donor–Acceptor Fluorophore for High-Performance Tumor Phototheranostics

荧光团 接受者 材料科学 红外线的 弯曲 光化学 光电子学 纳米技术 荧光 化学 光学 物理 复合材料 凝聚态物理
作者
Yingpeng Wan,Yijian Gao,Wei‐Chih Wei,Ka‐Wai Lee,Jihua Tan,Chung‐Yu Chen,Huan Chen,Shengliang Li,Ken‐Tsung Wong,Chun‐Sing Lee
出处
期刊:ACS Nano [American Chemical Society]
卷期号:18 (41): 27949-27961 被引量:38
标识
DOI:10.1021/acsnano.4c05546
摘要

Constructing J-aggregated organic dyes represents a promising strategy for obtaining biomedical second near-infrared (NIR-II) emissive materials, as they exhibit red-shifted spectroscopic properties upon assembly into nanoparticles (NPs) in aqueous environments. However, currently available NIR-II J-aggregates primarily rely on specific molecular backbones with intricate design strategies and are susceptible to fluorescence quenching during assembly. A facile approach for constructing bright NIR-II J-aggregates using prevalent donor-acceptor (D-A) molecules is still lacking. In this study, we present a facile method that transforms D-A molecules into J-aggregates by simply bending the molecule through introducing a methyl group, enabling high-performance NIR-II phototheranostics. The TAA-BT-CN molecule exhibits hypsochromic-shift absorption upon forming H-aggregated NPs, while the designed mTAA-BT-CN with a bent structure demonstrates a bathochromic shift of over 100 nm in absorption upon forming J-aggregated NPs, leading to much enhanced NIR-II emission beyond 1100 nm. With respect to its H-aggregated counterpart with the aggregation-caused quenching (ACQ) phenomenon, the J-aggregated mTAA-BT-CN NPs exhibit a 7-fold increase in NIR-II fluorescence owing to their aggregation-induced emission (AIE) property as well as efficient generation of heat and reactive oxygen species under 808 nm light excitation. Finally, the mTAA-BT-CN NPs are employed for whole-body blood vessel imaging using NIR-II technology as well as imaging-guided tumor phototherapies. This study will facilitate the flourishing advancement of J-aggregates based on prevalent D-A-type molecules.
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