Recent progress in efficient organic two-photon dyes for fluorescence imaging and photodynamic therapy

Two-photon excitation has important advantages over conventional one-photon excitation due to its charming advantages including longer-wavelength excitation, lower auto-fluorescence, higher 3D resolution and less photobleaching. These advantages have generated a strong demand for efficient two-photo...

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Published inJournal of materials chemistry. C, Materials for optical and electronic devices Vol. 8; no. 19; pp. 6342 - 6349
Main Authors Xu, Liang, Zhang, Junzheng, Yin, Lingfeng, Long, Xueting, Zhang, Wenying, Zhang, Qichun
Format Journal Article
LanguageEnglish
Published 21.05.2020
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Abstract Two-photon excitation has important advantages over conventional one-photon excitation due to its charming advantages including longer-wavelength excitation, lower auto-fluorescence, higher 3D resolution and less photobleaching. These advantages have generated a strong demand for efficient two-photon dyes with high two-photon absorption cross-sections and fluorescence quantum yields. For this reason, the emerging structure-property correlations that can serve as guidelines for the enhancement of two-photon absorption cross-sections and fluorescence quantum yields are summarized in detail. In addition, the existing challenges as well as future perspectives are also discussed. The enhancement of two-photon absorption cross-section, fluorescence quantum yield and singlet oxygen generation efficiency for organic dyes and their applications in two-photon excited fluorescence imaging and photodynamic therapy are summarized.
AbstractList Two-photon excitation has important advantages over conventional one-photon excitation due to its charming advantages including longer-wavelength excitation, lower auto-fluorescence, higher 3D resolution and less photobleaching. These advantages have generated a strong demand for efficient two-photon dyes with high two-photon absorption cross-sections and fluorescence quantum yields. For this reason, the emerging structure-property correlations that can serve as guidelines for the enhancement of two-photon absorption cross-sections and fluorescence quantum yields are summarized in detail. In addition, the existing challenges as well as future perspectives are also discussed. The enhancement of two-photon absorption cross-section, fluorescence quantum yield and singlet oxygen generation efficiency for organic dyes and their applications in two-photon excited fluorescence imaging and photodynamic therapy are summarized.
Two-photon excitation has important advantages over conventional one-photon excitation due to its charming advantages including longer-wavelength excitation, lower auto-fluorescence, higher 3D resolution and less photobleaching. These advantages have generated a strong demand for efficient two-photon dyes with high two-photon absorption cross-sections and fluorescence quantum yields. For this reason, the emerging structure–property correlations that can serve as guidelines for the enhancement of two-photon absorption cross-sections and fluorescence quantum yields are summarized in detail. In addition, the existing challenges as well as future perspectives are also discussed.
Author Xu, Liang
Long, Xueting
Zhang, Wenying
Zhang, Qichun
Zhang, Junzheng
Yin, Lingfeng
AuthorAffiliation City University of Hong Kong
Shantou University
Department of Chemistry and Key Laboratory for Preparation and Application of Ordered Structural Materials of Guangdong Province
School of Materials Science and Engineering
Department Materials Science and Engineering
Nanyang Technological University
AuthorAffiliation_xml – name: Department of Chemistry and Key Laboratory for Preparation and Application of Ordered Structural Materials of Guangdong Province
– name: Shantou University
– name: School of Materials Science and Engineering
– name: Department Materials Science and Engineering
– name: City University of Hong Kong
– name: Nanyang Technological University
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Snippet Two-photon excitation has important advantages over conventional one-photon excitation due to its charming advantages including longer-wavelength excitation,...
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