Quantitative Prediction of Aggregation-Induced Emission: A Full Quantum Mechanical Approach to the Optical Spectra

Wei Zhang; Jinfeng Liu; Xinsheng Jin; Xinggui Gu; Xiao Cheng Zeng; Xiao He; Hui Li

doi:10.1002/anie.202003326

Quantitative Prediction of Aggregation-Induced Emission: A Full Quantum Mechanical Approach to the Optical Spectra

Wei Zhang
, Jinfeng Liu
, Xinsheng Jin
, Xinggui Gu^*
, Xiao Cheng Zeng
, Xiao He^*
, Hui Li^*

^*此作品的通讯作者

化学与分子工程学院

科研成果: 期刊稿件 › 文章 › 同行评审

24 引用（Scopus）

摘要

Full quantum mechanical (FQM) calculation of the excited state of aggregation-induced-emission (AIE) materials is highly sought but still a challenging task. Herein, we employed the recently developed electrostatically embedded generalized molecular fractionation (EE-GMF) method, a method based on the systematic fragmentation approach, to predict, for the first time, the spectra of a prototype AIE fluorophore: di(p-methoxylphenyl)dibenzofulvene (FTPE). Compared to the single molecular or QM/MM calculations, the EE-GMF method shows significantly improved accuracy, nearly reproducing the experimental optical spectra of FTPE in both condensed phases. Importantly, we show that the conventional restriction of the intramolecular rotation mechanism cannot fully account for AIE, whereas the two-body intermolecular quantum mechanical interaction plays a crucial role in AIE.

源语言	英语
页（从-至）	11550-11555
页数	6
期刊	Angewandte Chemie - International Edition
卷	59
期	28
DOI	https://doi.org/10.1002/anie.202003326
出版状态	已出版 - 6 7月 2020

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title = "Quantitative Prediction of Aggregation-Induced Emission: A Full Quantum Mechanical Approach to the Optical Spectra",

abstract = "Full quantum mechanical (FQM) calculation of the excited state of aggregation-induced-emission (AIE) materials is highly sought but still a challenging task. Herein, we employed the recently developed electrostatically embedded generalized molecular fractionation (EE-GMF) method, a method based on the systematic fragmentation approach, to predict, for the first time, the spectra of a prototype AIE fluorophore: di(p-methoxylphenyl)dibenzofulvene (FTPE). Compared to the single molecular or QM/MM calculations, the EE-GMF method shows significantly improved accuracy, nearly reproducing the experimental optical spectra of FTPE in both condensed phases. Importantly, we show that the conventional restriction of the intramolecular rotation mechanism cannot fully account for AIE, whereas the two-body intermolecular quantum mechanical interaction plays a crucial role in AIE.",

keywords = "absorption spectroscopy, aggregation-induced emission, calculational methods, emission spectroscopy, fluorophores",

author = "Wei Zhang and Jinfeng Liu and Xinsheng Jin and Xinggui Gu and Zeng, \{Xiao Cheng\} and Xiao He and Hui Li",

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doi = "10.1002/anie.202003326",

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T2 - A Full Quantum Mechanical Approach to the Optical Spectra

AU - Zhang, Wei

AU - Liu, Jinfeng

AU - Jin, Xinsheng

AU - Gu, Xinggui

AU - Zeng, Xiao Cheng

AU - He, Xiao

AU - Li, Hui

PY - 2020/7/6

Y1 - 2020/7/6

N2 - Full quantum mechanical (FQM) calculation of the excited state of aggregation-induced-emission (AIE) materials is highly sought but still a challenging task. Herein, we employed the recently developed electrostatically embedded generalized molecular fractionation (EE-GMF) method, a method based on the systematic fragmentation approach, to predict, for the first time, the spectra of a prototype AIE fluorophore: di(p-methoxylphenyl)dibenzofulvene (FTPE). Compared to the single molecular or QM/MM calculations, the EE-GMF method shows significantly improved accuracy, nearly reproducing the experimental optical spectra of FTPE in both condensed phases. Importantly, we show that the conventional restriction of the intramolecular rotation mechanism cannot fully account for AIE, whereas the two-body intermolecular quantum mechanical interaction plays a crucial role in AIE.

AB - Full quantum mechanical (FQM) calculation of the excited state of aggregation-induced-emission (AIE) materials is highly sought but still a challenging task. Herein, we employed the recently developed electrostatically embedded generalized molecular fractionation (EE-GMF) method, a method based on the systematic fragmentation approach, to predict, for the first time, the spectra of a prototype AIE fluorophore: di(p-methoxylphenyl)dibenzofulvene (FTPE). Compared to the single molecular or QM/MM calculations, the EE-GMF method shows significantly improved accuracy, nearly reproducing the experimental optical spectra of FTPE in both condensed phases. Importantly, we show that the conventional restriction of the intramolecular rotation mechanism cannot fully account for AIE, whereas the two-body intermolecular quantum mechanical interaction plays a crucial role in AIE.

KW - absorption spectroscopy

KW - aggregation-induced emission

KW - calculational methods

KW - emission spectroscopy

KW - fluorophores

UR - https://www.scopus.com/pages/publications/85085151915

U2 - 10.1002/anie.202003326

DO - 10.1002/anie.202003326

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JO - Angewandte Chemie - International Edition

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Quantitative Prediction of Aggregation-Induced Emission: A Full Quantum Mechanical Approach to the Optical Spectra

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