Boron(iii) β-diketonate-based small molecules for functional non-fullerene polymer solar cells and organic resistive memory devices

Panpan Li; Quanbin Liang; Eugene Yau-Hin Hong; Chin-Yiu Chan; Yat-Hin Cheng; Ming-Yi Leung; Mei-Yee Chan; Kam-Hung Low; Hongbin Wu; Vivian Wing-Wah Yam

doi:10.1039/d0sc04047a

Boron(iii) β-diketonate-based small molecules for functional non-fullerene polymer solar cells and organic resistive memory devices

Panpan Li, Quanbin Liang, Eugene Yau-Hin Hong, Chin-Yiu Chan, Yat-Hin Cheng, Ming-Yi Leung, Mei-Yee Chan, Kam-Hung Low, Hongbin Wu, Vivian Wing-Wah Yam^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

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Abstract

A class of acceptor-donor-acceptor chromophoric small-molecule non-fullerene acceptors, 1-4, with difluoroboron(iii) β-diketonate (BF₂bdk) as the electron-accepting moiety has been developed. Through the variation of the central donor unit and the modification on the peripheral substituents of the terminal BF₂bdk acceptor unit, their photophysical and electrochemical properties have been systematically studied. Taking advantage of their low-lying lowest unoccupied molecular orbital energy levels (from -3.65 to -3.72 eV) and relatively high electron mobility (7.49 × 10^-4 cm² V^-1 s^-1), these BF₂bdk-based compounds have been employed as non-fullerene acceptors in organic solar cells with maximum power conversion efficiencies of up to 4.31%. Moreover, bistable resistive memory characteristics with charge-trapping mechanisms have been demonstrated in these BF₂bdk-based compounds. This work not only demonstrates for the first time the use of a boron(iii) β-diketonate unit in constructing non-fullerene acceptors, but also provides more insights into designing organic materials with multi-functional properties. © The Royal Society of Chemistry 2020

Original language	English
Pages (from-to)	11601-11612
Number of pages	12
Journal	Chemical Science
Volume	11
Issue number	42
Online published	8 Oct 2020
DOIs	https://doi.org/10.1039/d0sc04047a
Publication status	Published - 14 Nov 2020
Externally published	Yes

Funding

V. W.-W. Y. acknowledges the support from the University Research Committee (URC) Strategically Oriented Research Theme (SORT) on Functional Materials for Molecular Electronics of The University of Hong Kong (HKU). This work has been supported by the Guangdong-Hong Kong-Macao Joint Laboratory of Optoelectronic and Magnetic Functional Materials (2019B121205002) and a General Research Fund (GRF) grant from the Research Grants Council of the Hong Kong Special Administrative Region, P. R. China (HKU 17306219). P. Li acknowledges the receipt of a postgraduate studentship from The University of Hong Kong. The University Development Fund of The University of Hong Kong is acknowledged for funding the Bruker D8 VENTURE MetalJet Photon II CPAD X-Ray diffractometer. Dr L.-Y. Yao is acknowledged for his helpful discussion and assistance in the X-ray crystal structure study. Dr Maggie Ng is thanked for her help in the computational studies. Dr C.-O. Ng and Dr C.-C. Ko from the City University of Hong Kong are acknowledged for their help with the DSC measurements.

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abstract = "A class of acceptor-donor-acceptor chromophoric small-molecule non-fullerene acceptors, 1-4, with difluoroboron(iii) β-diketonate (BF2bdk) as the electron-accepting moiety has been developed. Through the variation of the central donor unit and the modification on the peripheral substituents of the terminal BF2bdk acceptor unit, their photophysical and electrochemical properties have been systematically studied. Taking advantage of their low-lying lowest unoccupied molecular orbital energy levels (from -3.65 to -3.72 eV) and relatively high electron mobility (7.49 × 10-4 cm2 V-1 s-1), these BF2bdk-based compounds have been employed as non-fullerene acceptors in organic solar cells with maximum power conversion efficiencies of up to 4.31%. Moreover, bistable resistive memory characteristics with charge-trapping mechanisms have been demonstrated in these BF2bdk-based compounds. This work not only demonstrates for the first time the use of a boron(iii) β-diketonate unit in constructing non-fullerene acceptors, but also provides more insights into designing organic materials with multi-functional properties. {\textcopyright} The Royal Society of Chemistry 2020",

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AU - Chan, Chin-Yiu

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AU - Leung, Ming-Yi

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AB - A class of acceptor-donor-acceptor chromophoric small-molecule non-fullerene acceptors, 1-4, with difluoroboron(iii) β-diketonate (BF2bdk) as the electron-accepting moiety has been developed. Through the variation of the central donor unit and the modification on the peripheral substituents of the terminal BF2bdk acceptor unit, their photophysical and electrochemical properties have been systematically studied. Taking advantage of their low-lying lowest unoccupied molecular orbital energy levels (from -3.65 to -3.72 eV) and relatively high electron mobility (7.49 × 10-4 cm2 V-1 s-1), these BF2bdk-based compounds have been employed as non-fullerene acceptors in organic solar cells with maximum power conversion efficiencies of up to 4.31%. Moreover, bistable resistive memory characteristics with charge-trapping mechanisms have been demonstrated in these BF2bdk-based compounds. This work not only demonstrates for the first time the use of a boron(iii) β-diketonate unit in constructing non-fullerene acceptors, but also provides more insights into designing organic materials with multi-functional properties. © The Royal Society of Chemistry 2020

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Boron(iii) β-diketonate-based small molecules for functional non-fullerene polymer solar cells and organic resistive memory devices

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