Dumbbell-shaped spirocyclic aromatic hydrocarbon to control intermolecular π-π Stacking interaction for high-performance nondoped deep-blue organic light-emitting devices

Ju Fen Gu; Guo Hua Xie; Long Zhang; Shu Fen Chen; Zong Qiong Lin; Zhen Song Zhang; Jian Feng Zhao; Ling Hai Xie; Chao Tang; Yi Zhao; Shi Yong Liu; Wei Huang

doi:10.1021/jz101039d

Dumbbell-shaped spirocyclic aromatic hydrocarbon to control intermolecular π-π Stacking interaction for high-performance nondoped deep-blue organic light-emitting devices

Ju Fen Gu, Guo Hua Xie, Long Zhang, Shu Fen Chen, Zong Qiong Lin, Zhen Song Zhang, Jian Feng Zhao, Ling Hai Xie, Chao Tang, Yi Zhao, Shi Yong Liu, Wei Huang

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

79 Scopus citations

Abstract

Dumbbell-shaped spirocyclic aromatic hydrocarbons on the basis of molecular modeling exhibit no π-π stacking interaction among chromophores in the molecular packing diagrams. A model compound of 1,6-di(spiro[fluorene-9, 9′-xanthene]-2-yl)pyrene (DSFXPy) with the pyrene-pyrene distance of up to 10.4 Å has been synthesized for high-performance nondoped deep-blue organic light-emitting devices. The proof-of-concept nondoped OLEDs have been fabricated with the configuration of ITO/MoO_x(2 nm)/NPB(30 nm)/DSFXPy(30 nm)/TPBi(40 nm)/LiF(1 nm)/Al. DSFXPy-based nondoped OLED exhibits a maximum current efficiency of 7.4 cd/A (4.6% at 260 cd m^-2) and excellent CIE coordinates (0.16, 0.15) (at 6500 cd m^-2), surpassing most reported nondoped deep-blue OLEDs. Dumbbell-shaped spirocyclic arenes will be promising candidates for OLEDs.

Original language	English
Pages (from-to)	2849-2853
Number of pages	5
Journal	Journal of Physical Chemistry Letters
Volume	1
Issue number	19
DOIs	https://doi.org/10.1021/jz101039d
State	Published - 7 Oct 2010
Externally published	Yes

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Gu, J. F., Xie, G. H., Zhang, L., Chen, S. F., Lin, Z. Q., Zhang, Z. S., Zhao, J. F., Xie, L. H., Tang, C., Zhao, Y., Liu, S. Y., & Huang, W. (2010). Dumbbell-shaped spirocyclic aromatic hydrocarbon to control intermolecular π-π Stacking interaction for high-performance nondoped deep-blue organic light-emitting devices. Journal of Physical Chemistry Letters, 1(19), 2849-2853. https://doi.org/10.1021/jz101039d

@article{7631fcb45daa416689504c00dfa8b402,

title = "Dumbbell-shaped spirocyclic aromatic hydrocarbon to control intermolecular π-π Stacking interaction for high-performance nondoped deep-blue organic light-emitting devices",

abstract = "Dumbbell-shaped spirocyclic aromatic hydrocarbons on the basis of molecular modeling exhibit no π-π stacking interaction among chromophores in the molecular packing diagrams. A model compound of 1,6-di(spiro[fluorene-9, 9′-xanthene]-2-yl)pyrene (DSFXPy) with the pyrene-pyrene distance of up to 10.4 {\AA} has been synthesized for high-performance nondoped deep-blue organic light-emitting devices. The proof-of-concept nondoped OLEDs have been fabricated with the configuration of ITO/MoOx(2 nm)/NPB(30 nm)/DSFXPy(30 nm)/TPBi(40 nm)/LiF(1 nm)/Al. DSFXPy-based nondoped OLED exhibits a maximum current efficiency of 7.4 cd/A (4.6% at 260 cd m-2) and excellent CIE coordinates (0.16, 0.15) (at 6500 cd m-2), surpassing most reported nondoped deep-blue OLEDs. Dumbbell-shaped spirocyclic arenes will be promising candidates for OLEDs.",

author = "Gu, {Ju Fen} and Xie, {Guo Hua} and Long Zhang and Chen, {Shu Fen} and Lin, {Zong Qiong} and Zhang, {Zhen Song} and Zhao, {Jian Feng} and Xie, {Ling Hai} and Chao Tang and Yi Zhao and Liu, {Shi Yong} and Wei Huang",

year = "2010",

month = oct,

day = "7",

doi = "10.1021/jz101039d",

language = "英语",

volume = "1",

pages = "2849--2853",

journal = "Journal of Physical Chemistry Letters",

issn = "1948-7185",

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number = "19",

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Gu, JF, Xie, GH, Zhang, L, Chen, SF, Lin, ZQ, Zhang, ZS, Zhao, JF, Xie, LH, Tang, C, Zhao, Y, Liu, SY & Huang, W 2010, 'Dumbbell-shaped spirocyclic aromatic hydrocarbon to control intermolecular π-π Stacking interaction for high-performance nondoped deep-blue organic light-emitting devices', Journal of Physical Chemistry Letters, vol. 1, no. 19, pp. 2849-2853. https://doi.org/10.1021/jz101039d

Dumbbell-shaped spirocyclic aromatic hydrocarbon to control intermolecular π-π Stacking interaction for high-performance nondoped deep-blue organic light-emitting devices. / Gu, Ju Fen; Xie, Guo Hua; Zhang, Long et al.
In: Journal of Physical Chemistry Letters, Vol. 1, No. 19, 07.10.2010, p. 2849-2853.

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

TY - JOUR

T1 - Dumbbell-shaped spirocyclic aromatic hydrocarbon to control intermolecular π-π Stacking interaction for high-performance nondoped deep-blue organic light-emitting devices

AU - Gu, Ju Fen

AU - Xie, Guo Hua

AU - Zhang, Long

AU - Chen, Shu Fen

AU - Lin, Zong Qiong

AU - Zhang, Zhen Song

AU - Zhao, Jian Feng

AU - Xie, Ling Hai

AU - Tang, Chao

AU - Zhao, Yi

AU - Liu, Shi Yong

AU - Huang, Wei

PY - 2010/10/7

Y1 - 2010/10/7

N2 - Dumbbell-shaped spirocyclic aromatic hydrocarbons on the basis of molecular modeling exhibit no π-π stacking interaction among chromophores in the molecular packing diagrams. A model compound of 1,6-di(spiro[fluorene-9, 9′-xanthene]-2-yl)pyrene (DSFXPy) with the pyrene-pyrene distance of up to 10.4 Å has been synthesized for high-performance nondoped deep-blue organic light-emitting devices. The proof-of-concept nondoped OLEDs have been fabricated with the configuration of ITO/MoOx(2 nm)/NPB(30 nm)/DSFXPy(30 nm)/TPBi(40 nm)/LiF(1 nm)/Al. DSFXPy-based nondoped OLED exhibits a maximum current efficiency of 7.4 cd/A (4.6% at 260 cd m-2) and excellent CIE coordinates (0.16, 0.15) (at 6500 cd m-2), surpassing most reported nondoped deep-blue OLEDs. Dumbbell-shaped spirocyclic arenes will be promising candidates for OLEDs.

AB - Dumbbell-shaped spirocyclic aromatic hydrocarbons on the basis of molecular modeling exhibit no π-π stacking interaction among chromophores in the molecular packing diagrams. A model compound of 1,6-di(spiro[fluorene-9, 9′-xanthene]-2-yl)pyrene (DSFXPy) with the pyrene-pyrene distance of up to 10.4 Å has been synthesized for high-performance nondoped deep-blue organic light-emitting devices. The proof-of-concept nondoped OLEDs have been fabricated with the configuration of ITO/MoOx(2 nm)/NPB(30 nm)/DSFXPy(30 nm)/TPBi(40 nm)/LiF(1 nm)/Al. DSFXPy-based nondoped OLED exhibits a maximum current efficiency of 7.4 cd/A (4.6% at 260 cd m-2) and excellent CIE coordinates (0.16, 0.15) (at 6500 cd m-2), surpassing most reported nondoped deep-blue OLEDs. Dumbbell-shaped spirocyclic arenes will be promising candidates for OLEDs.

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JO - Journal of Physical Chemistry Letters

JF - Journal of Physical Chemistry Letters

IS - 19

ER -

Dumbbell-shaped spirocyclic aromatic hydrocarbon to control intermolecular π-π Stacking interaction for high-performance nondoped deep-blue organic light-emitting devices

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