Unusual phosphorescence of boric acid: From impurity or clusterization‐triggered emission?

The unusual room‐temperature phosphorescence (RTP) from the n electron‐rich systems (without regular conjugated structure) has aroused great attention for structural designing and application development of RTP materials. Such emission has been ascribed to clusterization‐triggered emission (CTE) via...

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Bibliographic Details
Published in:Aggregate (Hoboken) 2024-04, Vol.5 (2), p.n/a
Main Authors: Cao, Peisheng, Wang, Yanying, Zheng, Haoyue, Wu, Peng
Format: Article
Language:English
Subjects:
boric acid
Cellulose
clusterization‐triggered emission
Dependence
Energy
impurity‐induced phosphorescence
Investigations
through‐space conjugation
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Summary:The unusual room‐temperature phosphorescence (RTP) from the n electron‐rich systems (without regular conjugated structure) has aroused great attention for structural designing and application development of RTP materials. Such emission has been ascribed to clusterization‐triggered emission (CTE) via weak through‐space conjugation of n electrons in the heteroatoms. However, there was suspicion on such RTP as impurity‐induced result. Therefore, in‐depth photophysical investigation and effective proof methods are needed to trace the origin of such RTP. Here, using the recently reported CTE phosphor boric acid as the example, a Jablonski diagram‐based verification protocol was proposed to confirm the intrinsic luminescence of the n electrons‐rich systems. Meanwhile, some other types of luminophores, that is, traditional phosphors, already reported impurity‐induced and host‐guest doping luminophores, were included for comparison. Overall, this work provides a basic paradigm for differentiating between the impurity‐involved and the n electron‐rich phosphors and will further deepen the understanding of nonconventional luminescence. Unusual phosphorescence was identified from boric acid, but was questioned as impurity‐induced result. Here, we proposed a protocol to verify the origin of such phosphorescence, namely from weak through‐space conjugation rather than impurity.
ISSN:2692-4560
2766-8541
2692-4560
DOI:10.1002/agt2.468