Recent Progress of Organic Room-Temperature Phosphorescent Hydrogels

Xiaoyuan Huang; Yongfeng Zhang; Gengchen Li; Tao Wang; Peng Sun; Jianbing Shi; Bin Tong; Junge Zhi; Zhao Li; Zhengxu Cai; Yuping Dong

doi:10.1002/cptc.202400315

Recent Progress of Organic Room-Temperature Phosphorescent Hydrogels

Xiaoyuan Huang, Yongfeng Zhang, Gengchen Li, Tao Wang, Peng Sun^*, Jianbing Shi, Bin Tong, Junge Zhi, Zhao Li^*, Zhengxu Cai^*, Yuping Dong

^*Corresponding author for this work

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

Organic room-temperature phosphorescent (RTP) materials have garnered significant attention owing to their unique photophysical properties. Traditionally, the stabilization of triplet excitons in RTP materials necessitates a crystalline matrix or rigid polymer chain, which limits their use in flexible materials. In contrast, hydrogels offer biocompatibility, softness, and ease of processing. Therefore, incorporating phosphorescent molecules into hydrogel systems can expand the application potential of RTP materials. This concept summarizes recent advancements in RTP hydrogels, emphasizing their synthetic strategies and diverse applications.

Original language	English
Article number	e202400315
Journal	ChemPhotoChem
Volume	9
Issue number	2
DOIs	https://doi.org/10.1002/cptc.202400315
Publication status	Published - Feb 2025

Keywords

Flexible materials
Hydrogels
Multifunction
Room temperature phosphorescence

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10.1002/cptc.202400315

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Huang, X., Zhang, Y., Li, G., Wang, T., Sun, P., Shi, J., Tong, B., Zhi, J., Li, Z., Cai, Z., & Dong, Y. (2025). Recent Progress of Organic Room-Temperature Phosphorescent Hydrogels. ChemPhotoChem, 9(2), Article e202400315. https://doi.org/10.1002/cptc.202400315

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abstract = "Organic room-temperature phosphorescent (RTP) materials have garnered significant attention owing to their unique photophysical properties. Traditionally, the stabilization of triplet excitons in RTP materials necessitates a crystalline matrix or rigid polymer chain, which limits their use in flexible materials. In contrast, hydrogels offer biocompatibility, softness, and ease of processing. Therefore, incorporating phosphorescent molecules into hydrogel systems can expand the application potential of RTP materials. This concept summarizes recent advancements in RTP hydrogels, emphasizing their synthetic strategies and diverse applications.",

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AU - Li, Gengchen

AU - Wang, Tao

AU - Sun, Peng

AU - Shi, Jianbing

AU - Tong, Bin

AU - Zhi, Junge

AU - Li, Zhao

AU - Cai, Zhengxu

AU - Dong, Yuping

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N2 - Organic room-temperature phosphorescent (RTP) materials have garnered significant attention owing to their unique photophysical properties. Traditionally, the stabilization of triplet excitons in RTP materials necessitates a crystalline matrix or rigid polymer chain, which limits their use in flexible materials. In contrast, hydrogels offer biocompatibility, softness, and ease of processing. Therefore, incorporating phosphorescent molecules into hydrogel systems can expand the application potential of RTP materials. This concept summarizes recent advancements in RTP hydrogels, emphasizing their synthetic strategies and diverse applications.

AB - Organic room-temperature phosphorescent (RTP) materials have garnered significant attention owing to their unique photophysical properties. Traditionally, the stabilization of triplet excitons in RTP materials necessitates a crystalline matrix or rigid polymer chain, which limits their use in flexible materials. In contrast, hydrogels offer biocompatibility, softness, and ease of processing. Therefore, incorporating phosphorescent molecules into hydrogel systems can expand the application potential of RTP materials. This concept summarizes recent advancements in RTP hydrogels, emphasizing their synthetic strategies and diverse applications.

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KW - Hydrogels

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Recent Progress of Organic Room-Temperature Phosphorescent Hydrogels

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Keywords

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