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Breaking shackles of molecular weight and emission for NIR-II fluorophores by regulating Columb attraction interaction

Author

Listed:
  • Miantai Ye

    (Hubei University
    Hubei University
    Wuhan University
    Hainan Normal University)

  • Xiaoyu Wang

    (Hubei University
    Hubei University)

  • Jingwen Zou

    (Hubei University
    Hubei University)

  • Wei Sun

    (Hainan Normal University
    Hainan Normal University
    Hainan Normal University)

  • Weijie Chi

    (Hainan University)

  • Zhiqiang Mao

    (Hubei University
    Hubei University)

  • Zhihong Liu

    (Hubei University
    Hubei University
    Wuhan University)

Abstract

The second near-infrared (NIR-II) dyes provide advantages for in vivo imaging, but challenges persist. A primary issue is the lack of practicable strategies to balance emission wavelength and molecular weight, particularly for low-molecular-weight ( 1000 nm) dyes. Here, we propose a strategy that tunes NIR-II emissions by reducing Coulomb attraction interaction, contrasting with traditional approaches that redshift absorption wavelengths through energy gap reduction. Leveraging this concept, we extend the emission wavelength of GFP chromophore-based dyes LS1-12 from the visible range into the NIR-II region, achieving a maximum emission wavelength exceeding 1200 nm with molecular weights between 226 and 449 Da. Further, the optimized NIR-II dye LS7 selectively binds Aβ42 fibrils, yielding a 22.7-fold fluorescence increase in vitro and enabling real-time imaging of deposited Aβ proteins in the brains of living mice with Alzheimer’s disease. This study introduces a distinct design strategy for low-molecular-weight NIR-II dyes and addresses a longstanding bottleneck in this field.

Suggested Citation

  • Miantai Ye & Xiaoyu Wang & Jingwen Zou & Wei Sun & Weijie Chi & Zhiqiang Mao & Zhihong Liu, 2025. "Breaking shackles of molecular weight and emission for NIR-II fluorophores by regulating Columb attraction interaction," Nature Communications, Nature, vol. 16(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-63353-x
    DOI: 10.1038/s41467-025-63353-x
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    as
    1. Jiefei Wang & Ping Shangguan & Xiaoyu Chen & Yong Zhong & Ming Lin & Mu He & Yisheng Liu & Yuan Zhou & Xiaobin Pang & Lulu Han & Mengya Lu & Xiao Wang & Yang Liu & Huiqing Yang & Jingyun Chen & Chenhu, 2024. "A one-two punch targeting reactive oxygen species and fibril for rescuing Alzheimer’s disease," Nature Communications, Nature, vol. 15(1), pages 1-16, December.
    2. Aiyan Ji & Hongyue Lou & Chunrong Qu & Wanglong Lu & Yifan Hao & Jiafeng Li & Yuyang Wu & Tonghang Chang & Hao Chen & Zhen Cheng, 2022. "Author Correction: Acceptor engineering for NIR-II dyes with high photochemical and biomedical performance," Nature Communications, Nature, vol. 13(1), pages 1-1, December.
    3. Jusung An & Kyeonghwan Kim & Ho Jae Lim & Hye Yun Kim & Jinwoo Shin & InWook Park & Illhwan Cho & Hyeong Yun Kim & Sunghoon Kim & Catriona McLean & Kyu Yeong Choi & YoungSoo Kim & Kun Ho Lee & Jong Se, 2024. "Early onset diagnosis in Alzheimer’s disease patients via amyloid-β oligomers-sensing probe in cerebrospinal fluid," Nature Communications, Nature, vol. 15(1), pages 1-16, December.
    4. Aiyan Ji & Hongyue Lou & Chunrong Qu & Wanglong Lu & Yifan Hao & Jiafeng Li & Yuyang Wu & Tonghang Chang & Hao Chen & Zhen Cheng, 2022. "Acceptor engineering for NIR-II dyes with high photochemical and biomedical performance," Nature Communications, Nature, vol. 13(1), pages 1-13, December.
    5. Kui Yan & Zhubin Hu & Peng Yu & Zuyang He & Ying Chen & Jiajian Chen & Haitao Sun & Shangfeng Wang & Fan Zhang, 2024. "Ultra-photostable small-molecule dyes facilitate near-infrared biophotonics," Nature Communications, Nature, vol. 15(1), pages 1-14, December.
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