Fused-Ring Pyrrole-Based Near-Infrared Emissive Organic RTP Material for Persistent Afterglow Bioimaging

Yeyun Zhao, Jianhui Yang, Chao Liang, Zhongjie Wang, Yongfeng Zhang, Gengchen Li, Jiamin Qu, Xi Wang, Yahui Zhang, Peng Sun, Jianbing Shi, Bin Tong, Hai Yan Xie, Zhengxu Cai*, Yuping Dong

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

20 Citations (Scopus)

Abstract

Organic near-infrared room temperature phosphorescence (RTP) materials offer remarkable advantages in bioimaging due to their characteristic time scales and background noise elimination. However, developing near-infrared RTP materials for deep tissue imaging still faces challenges since the small band gap may increase the non-radiative decay, resulting in weak emission and short phosphorescence lifetime. In this study, fused-ring pyrrole-based structures were employed as the guest molecules for the construction of long wavelength emissive RTP materials. Compared to the decrease of the singlet energy level, the triplet energy level showed a more effectively decrease with the increase of the conjugation of the substituent groups. Moreover, the sufficient conjugation of fused ring structures in the guest molecule suppresses the non-radiative decay of triplet excitons. Therefore, a near-infrared RTP material (764 nm) was achieved for deep penetration bioimaging. Tumor cell membrane is used to coat RTP nanoparticles (NPs) to avoid decreasing the RTP performance compared to traditional coating by amphiphilic surfactants. RTP NPs with tumor-targeting properties show favorable phosphorescent properties, superior stability, and excellent biocompatibility. These NPs are applied for time-resolved luminescence imaging to eliminate background interference with excellent tissue penetration. This study provides a practical solution to prepare long-wavelength and long-lifetime organic RTP materials and their applications in bioimaging.

Original languageEnglish
Article numbere202317431
JournalAngewandte Chemie - International Edition
Volume63
Issue number5
DOIs
Publication statusPublished - 25 Jan 2024

Keywords

  • Cell Membranes Coating
  • Fused Ring Structures
  • Near-Infrared
  • Organic Room Temperature Phosphorescence
  • Time-Resolved Imaging

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