Protic acids as third components improve the phosphorescence properties of the guest-host system through hydrogen bonds

Nannan Liu; Yanyan Pan; Yunxiang Lei; Miaochang Liu; Chengdong Peng; Zhengxu Cai; Guomin Shen; Huayue Wu; Xiaobo Huang; Yuping Dong

doi:10.1016/j.cej.2021.133530

Protic acids as third components improve the phosphorescence properties of the guest-host system through hydrogen bonds

Nannan Liu, Yanyan Pan, Yunxiang Lei^*, Miaochang Liu, Chengdong Peng, Zhengxu Cai, Guomin Shen, Huayue Wu, Xiaobo Huang, Yuping Dong

^*Corresponding author for this work

School of Material Science and Engineering

Wenzhou University

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

29 Citations (Scopus)

Abstract

Host-guest doped materials have attracted widespread attention. However, most of the doped materials are two-component systems, and the phosphorescence properties and functions need to be further improved. Herein, diphenyl sulfoxide was selected as the host, and 1,3-diphenylbenzofuro[2,3-c]pyridine was designed as the guest to construct a new phosphorescence doped system. Importantly, water, phenol, benzoic acid, and phenylboronic acid are selected as the third component to form hydrogen bonds with the host molecules, the hydrogen bonds can improve the phosphorescence performance of doped materials. The phosphorescence quantum yields are increased from 4.3 % of the two-component to 18.8% −28.5 % of the three-component, and the phosphorescence lifetimes are increased from 147 ms to 235–308 ms. Moreover, the addition of the third component makes the phosphorescence of the doped system has a reversible alkali stimulus–response function. This work provides a universal strategy for constructing the multi-component doped systems with better phosphorescence performance or more phosphorescence functions.

Original language	English
Article number	133530
Journal	Chemical Engineering Journal
Volume	433
DOIs	https://doi.org/10.1016/j.cej.2021.133530
Publication status	Published - 1 Apr 2022

Keywords

Diphenyl sulfoxide
Hydrogen bonds
Room temperature phosphorescence
Stimulus-responsive property
Three-component doped system

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10.1016/j.cej.2021.133530

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title = "Protic acids as third components improve the phosphorescence properties of the guest-host system through hydrogen bonds",

abstract = "Host-guest doped materials have attracted widespread attention. However, most of the doped materials are two-component systems, and the phosphorescence properties and functions need to be further improved. Herein, diphenyl sulfoxide was selected as the host, and 1,3-diphenylbenzofuro[2,3-c]pyridine was designed as the guest to construct a new phosphorescence doped system. Importantly, water, phenol, benzoic acid, and phenylboronic acid are selected as the third component to form hydrogen bonds with the host molecules, the hydrogen bonds can improve the phosphorescence performance of doped materials. The phosphorescence quantum yields are increased from 4.3 % of the two-component to 18.8% −28.5 % of the three-component, and the phosphorescence lifetimes are increased from 147 ms to 235–308 ms. Moreover, the addition of the third component makes the phosphorescence of the doped system has a reversible alkali stimulus–response function. This work provides a universal strategy for constructing the multi-component doped systems with better phosphorescence performance or more phosphorescence functions.",

keywords = "Diphenyl sulfoxide, Hydrogen bonds, Room temperature phosphorescence, Stimulus-responsive property, Three-component doped system",

author = "Nannan Liu and Yanyan Pan and Yunxiang Lei and Miaochang Liu and Chengdong Peng and Zhengxu Cai and Guomin Shen and Huayue Wu and Xiaobo Huang and Yuping Dong",

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doi = "10.1016/j.cej.2021.133530",

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AU - Liu, Nannan

AU - Pan, Yanyan

AU - Lei, Yunxiang

AU - Liu, Miaochang

AU - Peng, Chengdong

AU - Cai, Zhengxu

AU - Shen, Guomin

AU - Wu, Huayue

AU - Huang, Xiaobo

AU - Dong, Yuping

PY - 2022/4/1

Y1 - 2022/4/1

N2 - Host-guest doped materials have attracted widespread attention. However, most of the doped materials are two-component systems, and the phosphorescence properties and functions need to be further improved. Herein, diphenyl sulfoxide was selected as the host, and 1,3-diphenylbenzofuro[2,3-c]pyridine was designed as the guest to construct a new phosphorescence doped system. Importantly, water, phenol, benzoic acid, and phenylboronic acid are selected as the third component to form hydrogen bonds with the host molecules, the hydrogen bonds can improve the phosphorescence performance of doped materials. The phosphorescence quantum yields are increased from 4.3 % of the two-component to 18.8% −28.5 % of the three-component, and the phosphorescence lifetimes are increased from 147 ms to 235–308 ms. Moreover, the addition of the third component makes the phosphorescence of the doped system has a reversible alkali stimulus–response function. This work provides a universal strategy for constructing the multi-component doped systems with better phosphorescence performance or more phosphorescence functions.

AB - Host-guest doped materials have attracted widespread attention. However, most of the doped materials are two-component systems, and the phosphorescence properties and functions need to be further improved. Herein, diphenyl sulfoxide was selected as the host, and 1,3-diphenylbenzofuro[2,3-c]pyridine was designed as the guest to construct a new phosphorescence doped system. Importantly, water, phenol, benzoic acid, and phenylboronic acid are selected as the third component to form hydrogen bonds with the host molecules, the hydrogen bonds can improve the phosphorescence performance of doped materials. The phosphorescence quantum yields are increased from 4.3 % of the two-component to 18.8% −28.5 % of the three-component, and the phosphorescence lifetimes are increased from 147 ms to 235–308 ms. Moreover, the addition of the third component makes the phosphorescence of the doped system has a reversible alkali stimulus–response function. This work provides a universal strategy for constructing the multi-component doped systems with better phosphorescence performance or more phosphorescence functions.

KW - Diphenyl sulfoxide

KW - Hydrogen bonds

KW - Room temperature phosphorescence

KW - Stimulus-responsive property

KW - Three-component doped system

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DO - 10.1016/j.cej.2021.133530

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JO - Chemical Engineering Journal

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ER -

Protic acids as third components improve the phosphorescence properties of the guest-host system through hydrogen bonds

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