Creation of Bifunctional Materials: Improve Electron-Transporting Ability of Light Emitters Based on AIE-Active 2,3,4,5-Tetraphenylsiloles

Creation of Bifunctional Materials: Improve Electron-Transporting Ability of Light Emitters Based on AIE-Active 2,3,4,5-Tetraphenylsiloles

2,3,4,5‐Tetraphenylsiloles are excellent solid‐state light emitters featured aggregation‐induced emission (AIE) characteristics, but those that can efficiently function as both light‐emitting and electron‐transporting layers in one organic light‐emitting diode (OLED) are much rare. To address this i...

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Veröffentlicht in:Advanced functional materials 2014-06, Vol.24 (23), p.3621-3630
Hauptverfasser: Chen, Long, Jiang, Yibin, Nie, Han, Lu, Ping, Sung, Herman H. Y., Williams, Ian D., Kwok, Hoi Sing, Huang, Fei, Qin, Anjun, Zhao, Zujin, Tang, Ben Zhong
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aggregation-induced emission
Aluminum
Devices
Electroluminescence
electron transporters
Electronic structure
Emitters
light emitters
Organic light emitting diodes
silole
Transporter
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container_end_page 3630
container_issue 23
container_start_page 3621
container_title Advanced functional materials
container_volume 24
creator Chen, Long
Jiang, Yibin
Nie, Han
Lu, Ping
Sung, Herman H. Y.
Williams, Ian D.
Kwok, Hoi Sing
Huang, Fei
Qin, Anjun
Zhao, Zujin
Tang, Ben Zhong
description 2,3,4,5‐Tetraphenylsiloles are excellent solid‐state light emitters featured aggregation‐induced emission (AIE) characteristics, but those that can efficiently function as both light‐emitting and electron‐transporting layers in one organic light‐emitting diode (OLED) are much rare. To address this issue, herein, three tailored n‐type light emitters comprised of 2,3,4,5‐tetraphenylsilole and dimesitylboryl functional groups are designed and synthesized. The new siloles are fully characterized by standard spectroscopic and crystallographic methods with satisfactory results. Their thermal stabilities, electronic structures, photophysical properties, electrochemical behaviors and applications in OLEDs are investigated. These new siloles exhibit AIE characteristics with high emission efficiencies in solid films, and possess lower LUMO energy levels than their parents, 2,3,4,5‐tetraphenylsiloles. The double‐layer OLEDs [ITO/NPB (60 nm)/silole (60 nm)/LiF (1 nm)/Al (100 nm)] fabricated by adopting the new siloles as both light emitter and electron transporter afford excellent performances, with high electroluminescence efficiencies up to 13.9 cd A–1, 4.35% and 11.6 lm W–1, which are increased greatly relative to those attained from the triple‐layer devices with an additional electron‐transporting layer. These results demonstrate effective access to n‐type solid‐state emissive materials with practical utility. Grafting dimesitylboryl groups onto 2,3,4,5‐tetraphenylsiloles generates efficient bifunctional materials that can simultaneously serve as light emitters and electron transporters in OLEDs. Remarkably high electroluminescence efficiencies up to 13.9 cd A−1, 4.35% and 11.6 lm W−1 are attained from the double‐layer OLEDs based on them.
doi_str_mv 10.1002/adfm.201303867
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Their thermal stabilities, electronic structures, photophysical properties, electrochemical behaviors and applications in OLEDs are investigated. These new siloles exhibit AIE characteristics with high emission efficiencies in solid films, and possess lower LUMO energy levels than their parents, 2,3,4,5‐tetraphenylsiloles. The double‐layer OLEDs [ITO/NPB (60 nm)/silole (60 nm)/LiF (1 nm)/Al (100 nm)] fabricated by adopting the new siloles as both light emitter and electron transporter afford excellent performances, with high electroluminescence efficiencies up to 13.9 cd A–1, 4.35% and 11.6 lm W–1, which are increased greatly relative to those attained from the triple‐layer devices with an additional electron‐transporting layer. These results demonstrate effective access to n‐type solid‐state emissive materials with practical utility. Grafting dimesitylboryl groups onto 2,3,4,5‐tetraphenylsiloles generates efficient bifunctional materials that can simultaneously serve as light emitters and electron transporters in OLEDs. Remarkably high electroluminescence efficiencies up to 13.9 cd A−1, 4.35% and 11.6 lm W−1 are attained from the double‐layer OLEDs based on them.</description><identifier>ISSN: 1616-301X</identifier><identifier>EISSN: 1616-3028</identifier><identifier>DOI: 10.1002/adfm.201303867</identifier><language>eng</language><publisher>Blackwell Publishing Ltd</publisher><subject>aggregation-induced emission ; Aluminum ; Devices ; Electroluminescence ; electron transporters ; Electronic structure ; Emitters ; light emitters ; Organic light emitting diodes ; silole ; Transporter</subject><ispartof>Advanced functional materials, 2014-06, Vol.24 (23), p.3621-3630</ispartof><rights>2014 WILEY‐VCH Verlag GmbH &amp; Co. 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Grafting dimesitylboryl groups onto 2,3,4,5‐tetraphenylsiloles generates efficient bifunctional materials that can simultaneously serve as light emitters and electron transporters in OLEDs. 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Y.</au><au>Williams, Ian D.</au><au>Kwok, Hoi Sing</au><au>Huang, Fei</au><au>Qin, Anjun</au><au>Zhao, Zujin</au><au>Tang, Ben Zhong</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Creation of Bifunctional Materials: Improve Electron-Transporting Ability of Light Emitters Based on AIE-Active 2,3,4,5-Tetraphenylsiloles</atitle><jtitle>Advanced functional materials</jtitle><addtitle>Adv. Funct. Mater</addtitle><date>2014-06-01</date><risdate>2014</risdate><volume>24</volume><issue>23</issue><spage>3621</spage><epage>3630</epage><pages>3621-3630</pages><issn>1616-301X</issn><eissn>1616-3028</eissn><abstract>2,3,4,5‐Tetraphenylsiloles are excellent solid‐state light emitters featured aggregation‐induced emission (AIE) characteristics, but those that can efficiently function as both light‐emitting and electron‐transporting layers in one organic light‐emitting diode (OLED) are much rare. To address this issue, herein, three tailored n‐type light emitters comprised of 2,3,4,5‐tetraphenylsilole and dimesitylboryl functional groups are designed and synthesized. The new siloles are fully characterized by standard spectroscopic and crystallographic methods with satisfactory results. Their thermal stabilities, electronic structures, photophysical properties, electrochemical behaviors and applications in OLEDs are investigated. These new siloles exhibit AIE characteristics with high emission efficiencies in solid films, and possess lower LUMO energy levels than their parents, 2,3,4,5‐tetraphenylsiloles. The double‐layer OLEDs [ITO/NPB (60 nm)/silole (60 nm)/LiF (1 nm)/Al (100 nm)] fabricated by adopting the new siloles as both light emitter and electron transporter afford excellent performances, with high electroluminescence efficiencies up to 13.9 cd A–1, 4.35% and 11.6 lm W–1, which are increased greatly relative to those attained from the triple‐layer devices with an additional electron‐transporting layer. These results demonstrate effective access to n‐type solid‐state emissive materials with practical utility. Grafting dimesitylboryl groups onto 2,3,4,5‐tetraphenylsiloles generates efficient bifunctional materials that can simultaneously serve as light emitters and electron transporters in OLEDs. Remarkably high electroluminescence efficiencies up to 13.9 cd A−1, 4.35% and 11.6 lm W−1 are attained from the double‐layer OLEDs based on them.</abstract><pub>Blackwell Publishing Ltd</pub><doi>10.1002/adfm.201303867</doi><tpages>10</tpages><oa>free_for_read</oa></addata></record>
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subjects aggregation-induced emission
Aluminum
Devices
Electroluminescence
electron transporters
Electronic structure
Emitters
light emitters
Organic light emitting diodes
silole
Transporter
title Creation of Bifunctional Materials: Improve Electron-Transporting Ability of Light Emitters Based on AIE-Active 2,3,4,5-Tetraphenylsiloles
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