Solution processable small molecules for organic light-emitting diodes

Duan, Lian; Hou, Lingyun; Lee, Tae‐Woo; Qiao, Juan; Zhang, Deqiang; Dong, Guifang; Wang, Liduo; Qiu, Yong

doi:10.1039/b926348a

Cited by 567 publications

(363 citation statements)

References 99 publications

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“…For the thin devices, turnon voltage and driving voltages close to that previously obtained for the former blue OLEDs were reached. When the thickness is increased, higher bias are required and a shift of the recombination zone at the interface between the emissive layer and MeOTPD is observed, as previously reported [50,51] (See Figure 4). …”

Section: Resultssupporting

confidence: 60%

White and Saturated Blue Phosphorescent OLED based on the Non-Emissive Homoleptic Complex Ir(ppz)3 as single active material

Lepeltier

Dumur

Wantz

et al. 2014

Optical Data Processing and Storage

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Section: Resultssupporting

confidence: 60%

White and Saturated Blue Phosphorescent OLED based on the Non-Emissive Homoleptic Complex Ir(ppz)3 as single active material

Lepeltier

Dumur

Wantz

et al. 2014

Optical Data Processing and Storage

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“…Techniques that use Solution-processing, such as spin-coating or inkjet-printing, are more promising with respect to the reduction of fabrication costs and the realization of large-area displays for simple device configurations. [16][17][18] Polymeric hosts are particularly suitable for solution processing technologies. This is driving academia and industry to develop new more efficient polymer hosts, and is a motivation for the current work.…”

Section: Introductionmentioning

confidence: 99%

Solution-Processed Blue/Deep Blue and White Phosphorescent Organic Light-Emitting Diodes (PhOLEDs) Hosted by a Polysiloxane Derivative with Pendant mCP (1,3-bis(9-carbazolyl)benzene)

Sun¹,

Zhou

Liu³

et al. 2015

ACS Appl. Mater. Interfaces

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Shouke (2015) 'Solution-processed blue/deep blue and white phosphorescent organic light emitting diodes (PhOLEDs) hosted by a polysiloxane derivative with pendant mCP (1, 3-bis(9-carbazolyl)benzene).', ACS applied materials interfaces., 7 (51). pp. 27989-27998. Further information on publisher's website:http://dx.doi.org/10.1021/am507592sPublisher's copyright statement:This document is the Accepted Manuscript version of a Published Work that appeared in nal form in ACS Applied Materials and Interfaces, copyright c 2015 American Chemical Society after peer review and technical editing by the publisher. To access the nal edited and published work see http://dx.doi.org/10.1021/am507592s. Additional information:Use policyThe full-text may be used and/or reproduced, and given to third parties in any format or medium, without prior permission or charge, for personal research or study, educational, or not-for-pro t purposes provided that:• a full bibliographic reference is made to the original source • a link is made to the metadata record in DRO • the full-text is not changed in any way The full-text must not be sold in any format or medium without the formal permission of the copyright holders.Please consult the full DRO policy for further details.

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“…Some advantages of OLEDs that make them perfect candidates to replace the widely used liquid crystal displays and plasma display panels include high efficiency, low voltage, full color, and easy fabrication process as large area flat panel displays in electronic devices [1][2][3]. OLEDs have been recognized as a promising alternative display and lighting technology because of their unique advantages such as paper-like thickness, faster response, high contrast, power-saving abilities, and potential to be used for flexible applications [4][5][6][7][8]. The emission process of OLEDs involves the recombination of electrons and holes, which form 1 of 2 types of excited states: singlet and triplet.…”

Section: Introductionmentioning

confidence: 99%