24.3: High Efficient Persistent Luminescence from F�rster resonance Energy Transfer Processes

Metal‐free organic systems with persistent room temperature phosphorescence (pRTP) have attracted considerable attention due to their long‐lived emission (over 0.1 s) after removal of the excitation, plus their advantages of good biocompatibility and facile functionality.[1] Thus, organic pRTP mater...

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Veröffentlicht in:	SID International Symposium Digest of technical papers 2022-10, Vol.53 (S1), p.272-272
Hauptverfasser:	Lin, Faxu, Wang, Haiyang, Cao, Yifeng, Huang, Huahua, Yang, Zhiyong, Chi, Zhenguo
Format:	Artikel
Sprache:	eng
Schlagworte:	Biocompatibility Emission Energy transfer Information storage Medical imaging Phosphorescence Phosphors Room temperature
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container_title	SID International Symposium Digest of technical papers
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creator	Lin, Faxu Wang, Haiyang Cao, Yifeng Huang, Huahua Yang, Zhiyong Chi, Zhenguo
description	Metal‐free organic systems with persistent room temperature phosphorescence (pRTP) have attracted considerable attention due to their long‐lived emission (over 0.1 s) after removal of the excitation, plus their advantages of good biocompatibility and facile functionality.[1] Thus, organic pRTP materials show great potential applications in bioimaging, information storage, and optical sensing. A variety of organic pRTP materials have been developed by promoting the intersystem crossing and suppressing the non‐radiative decay as much as possible. However, their pRTP emissions were generally in the spectral region of below 600 nm, for whether crystalline phosphors or polymeric systems, let alone emission in NIR region of over 750 nm.[2]
doi_str_mv	10.1002/sdtp.15917
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subjects	Biocompatibility Emission Energy transfer Information storage Medical imaging Phosphorescence Phosphors Room temperature
title	24.3: High Efficient Persistent Luminescence from F�rster resonance Energy Transfer Processes
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