拉曼散射
拉曼光谱
材料科学
荧光
荧光寿命成像显微镜
散射
光学
光电子学
光热治疗
核磁共振
量子点
纳米技术
X射线拉曼散射
共振(粒子物理)
发光
激发
量子产额
分子成像
生物医学工程
作者
Kexin Shi,Xinwei Wang,Yuxing Wang,Xia Long,Changli Shao,Jin Li
出处
期刊:Small
[Wiley]
日期:2026-06-02
卷期号:: e11028-e11028
标识
DOI:10.1002/smll.202511028
摘要
ABSTRACT Since the discovery of unique molecular building blocks (MBBs) such as tetraphenylethylene, aggregation‐induced emission fluorescence imaging probes have witnessed revolutionary progress. For plasmon‐free Raman imaging probes, the fundamental bottleneck is the discovery of unique Raman‐active MBBs to improve the intrinsic scattering. We herein proposed a new concept of quencher‐enhanced Raman scattering (QERS) based on nonfluorescent diammonium MBBs to fabricate bright Raman probes in second near‐infrared window through improving rigid electronic resonance scattering while simultaneously suppressing concomitant fluorescence backgrounds. The home‐made large π ‐conjugated diammonium quencher displays high photon‐absorption but ultra‐low fluorescence quantum yield (0.0001) under rigid resonant excitation at 1064 nm. Upon nanoprecipitation, these MBBs produce QERS probes with giant Raman cross‐section (1.27 × 10 −19 cm 2 ) as well as remarkable photostability, enabling high‐precision Raman‐guided surgical removal of tumor in living mice. Moreover, QERS probes achieve a high photothermal conversion efficiency up to 60.5%, allowing for effective hyperthermia ablation of drug‐resistant bacteria in postsurgical infected wounds in the mice. QERS may suggest a robust and efficient strategy for developing plasmon‐free Raman probes.
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