Supramolecular Hybrids of AIEgen with Carbon Dots for Noninvasive Long-Term Bioimaging

Fluorescent bioprobes have been regarded as promising tools for bioimaging in recent years due to their excellent properties. However, the aggregation-caused quenching of emissions is a big limitation in practice for this strategy. Organic dyes with aggregation-induced emission (AIE) feature can eff...

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Veröffentlicht in:	Chemistry of materials 2016-12, Vol.28 (23), p.8825-8833
Hauptverfasser:	Zhang, Jianxu, Zheng, Min, Zhang, Fengli, Xu, Bin, Tian, Wenjing, Xie, Zhigang
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container_title	Chemistry of materials
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creator	Zhang, Jianxu Zheng, Min Zhang, Fengli Xu, Bin Tian, Wenjing Xie, Zhigang
description	Fluorescent bioprobes have been regarded as promising tools for bioimaging in recent years due to their excellent properties. However, the aggregation-caused quenching of emissions is a big limitation in practice for this strategy. Organic dyes with aggregation-induced emission (AIE) feature can effectively solve this problem. Herein, stable fluorescent nanoparticles were prepared by supramolecular assembling of carbon dots (CDs) and hydrophobic AIEgen. The formulated CDsG-AIE 1 exhibits superior physical and photo stability than AIE self-assembling nanoparticles in various physiology conditions. On the other hand, the formulated CDsG-AIE 1 also showed advanced features such as large Stokes shift, good biocompatibility, high emission efficiency, and strong photobleaching resistance. More importantly, the CDsG-AIE 1 can be readily internalized by HeLa cells, and strong red fluorescence from the nanoparticles can still be clearly observed after six generations over 15 days. In addition, the CDsG-AIE 1 also exhibits superior long-term imaging ability in vivo. These incredible features make the AIE nanoparticles to be an ideal fluorescent probe for noninvasive long-term tracing and imaging applications. This work highlights the potential of using carbon dots to assemble AIEgen for the preparation of nanoscale AIEgen-contained particles for desirable bioimaging and diagnostic.
doi_str_mv	10.1021/acs.chemmater.6b04894
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