在水中共组装纳米粒子中，受可见光和近红外光激发的激子二聚体产生纯有机室温磷光。

Pure Organic Room Temperature Phosphorescence from Excited Dimers in Self-Assembled Nanoparticles under Visible and Near-Infrared Irradiation in Water.

机构信息

Key Laboratory of Photochemical Conversion and Optoelectronic Materials , Technical Institute of Physics and Chemistry, Chinese Academy of Sciences , Beijing 100190 , China.

School of Future Technology , University of Chinese Academy of Sciences , Beijing 100049 , P. R. China.

出版信息

J Am Chem Soc. 2019 Mar 27;141(12):5045-5050. doi: 10.1021/jacs.9b00859. Epub 2019 Mar 14.

DOI:10.1021/jacs.9b00859

PMID:30827093

Abstract

Pure organic room temperature phosphorescence (RTP) has unique advantages and various potential applications. However, it is challengeable to achieve organic RTP under visible and near-infrared (NIR)-light excitation, especially in aqueous solution. Herein we assemble difluoroboron β-diketonate compounds to form organic nanoparticles (NPs) in water. The resulting NPs are able to show efficient RTP, effective uptake, and bright imaging of HeLa cells under both visible- and NIR-light excitation. More strikingly, spectroscopic study, single-crystal X-ray diffraction, and DFT calculation reveal that the efficient RTP in organic NPs is originated from dimers in their excited states. The multiple interactions and intermolecular charge transfer in the dimer structures are of significance in promoting the production of dimer triplet excited states and suppressing the nonradiative decays to boost the RTP under visible- and NIR-light irradiation in water.

摘要

纯有机室温磷光（RTP）具有独特的优势和各种潜在的应用。然而，在可见光和近红外（NIR）光激发下实现有机 RTP 是具有挑战性的，特别是在水溶液中。在此，我们将二氟硼 β-二酮化合物组装成在水中形成有机纳米颗粒（NPs）。所得的 NPs 在可见光和 NIR 光激发下均能表现出高效的 RTP、有效的摄取和 HeLa 细胞的明亮成像。更引人注目的是，光谱研究、单晶 X 射线衍射和 DFT 计算表明，有机 NPs 中高效的 RTP 源于其激发态中的二聚体。二聚体结构中的多种相互作用和分子间电荷转移对于促进二聚体三重态激发态的产生和抑制非辐射衰减以在水溶液中在可见光和 NIR 光照射下增强 RTP 具有重要意义。

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在水中共组装纳米粒子中，受可见光和近红外光激发的激子二聚体产生纯有机室温磷光。

Pure Organic Room Temperature Phosphorescence from Excited Dimers in Self-Assembled Nanoparticles under Visible and Near-Infrared Irradiation in Water.

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