间苯二甲酸二苄酯作为室温磷光主客体体系中的通用主体。

Dibenzyl isophthalates as versatile hosts in room temperature phosphorescence host-guest systems.

作者信息

Molkenthin Martin, Hupf Emanuel, Nachtsheim Boris J

机构信息

University of Bremen, Institute for Organic and Analytical Chemistry 28359 Bremen Germany

University of Bremen, Institute of Inorganic Chemistry and Crystallography 28359 Bremen Germany

出版信息

Chem Sci. 2025 Jan 7;16(6):2819-2829. doi: 10.1039/d4sc07768g. eCollection 2025 Feb 5.

DOI:10.1039/d4sc07768g

PMID:39811010

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11726582/

Abstract

We report a series of dibenzyl isophthalates (DBIs) as novel hosts for room-temperature phosphorescence (RTP) host-guest systems, achieving RTP quantum yields (QY) of up to 77% or lifetimes of up to 21.0 s with the guest coronene- . Furthermore, a 4,4'-Br substituted DBI was used to form host-guest RTP systems with 15 different aromatic guest molecules, to tune the phosphorescence emission color from blue to red and to demonstrate the versatility of the host. Mechanistic insights were gained through a host-guest-matrix system which shows RTP by trace combinations of a 4,4'-Br DBI host (0.10 wt%) and a pyrene- guest (0.01 wt%) in an otherwise non-RTP-emissive aromatic matrix. This work establishes DBIs as readily available and versatile, tunable hosts for RTP host-guest systems, posing an alternative to polymeric hosts.

摘要

我们报道了一系列间苯二甲酸二苄酯（DBIs）作为室温磷光（RTP）主客体体系的新型主体，与客体蒄形成的体系实现了高达77%的RTP量子产率（QY）或长达21.0秒的寿命。此外，一种4,4'-溴取代的DBI被用于与15种不同的芳香族客体分子形成主客体RTP体系，以将磷光发射颜色从蓝色调至红色，并展示了主体的多功能性。通过一个主客体-基质体系获得了机理见解，该体系在原本不发射RTP的芳香族基质中，通过痕量组合的4,4'-溴DBI主体（0.10 wt%）和芘客体（0.01 wt%）显示出RTP。这项工作确立了DBIs作为RTP主客体体系易于获得、多功能且可调节的主体，是聚合物主体的一种替代选择。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dfa6/11795819/1890545f0053/d4sc07768g-s1.jpg

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间苯二甲酸二苄酯作为室温磷光主客体体系中的通用主体。

Dibenzyl isophthalates as versatile hosts in room temperature phosphorescence host-guest systems.

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