Jun Yeob Lee scite author profile

Recently, organic thermally activated delayed fluorescence (TADF) emitters have attracted a great deal of attention because they can theoretically realize 100% internal quantum efficiency. Many TADF emitters have been developed since the first demonstration of close to 20% external quantum efficiency in the devices. Recently developed TADF emitters demonstrated close to 37% external quantum efficiency in blue, above 30% external quantum efficiency in green, and close to 18% external quantum efficiency in red devices. Therefore, TADF organic light-emitting diodes could potentially be substituted for high-efficiency phosphorescent organic light-emitting diodes. In this work, we reviewed molecular design strategies of organic-based TADF emitters by classifying them into several categories depending on the material parameters required for the TADF emitters. In addition, we proposed a future development direction of TADF emitters to make them competitive with phosphorescent emitters.

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Organic Materials for Deep Blue Phosphorescent Organic Light‐Emitting Diodes

Yook

2012

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Recently, great progress has been made in the device performance of deep blue phosphorescent organic light-emitting diodes (PHOLEDs) by developing high triplet energy charge-transport materials, high triplet energy host and deep blue emitting phosphorescent dopant materials. A high quantum efficiency of over 25% and a high power effi ciency of over 15 lm/W have already been achieved at 1000 cd m − 2 in the deep blue PHOLEDs with a y color coordinate less than 0.20. In this work, recent developments in organic materials for high effi ciency deep blue PHOLEDs are reviewed and a future strategy for the development of high effi ciency deep blue PHOLEDs is proposed. Adv. Mater. 2012, 24, 3169-3190 3170 www.advmat.de www.MaterialsViews.com wileyonlinelibrary.com REVIEWHOMO, LUMO, triplet energy and glass transition temperature (Tg) were summarized for host materials in addition to device performances of blue PHOLEDs. Hole or electron mobility data were added for charge transport materials, while photoluminescence (PL) and PL quantum effi ciency values were also considered for dopant materials. Deep blue PHOLED device data were preferentially described in this work. However, many papers used sky blue dopant materials in device fabrication to evaluate host and charge transport materials due to limited availability of deep blue emitting material. Therefore, sky blue device data were inserted in the case of organic materials without any deep blue test result.

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Small Molecule Host Materials for Solution Processed Phosphorescent Organic Light‐Emitting Diodes

2014

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Solution processed phosphorescent organic light-emitting diodes (OLEDs) have been actively developed due to merits of high quantum efficiency of phosphorescent materials and simple fabrication processes of solution processed OLEDs. The device performances of the solution processed phosphorescent OLEDs have been greatly improved in the last 10 years and the progress of the device performances was made by the development of small molecule host materials for solution processes. A hybrid host of polymer and small molecules, a single small molecule host and a mixed host of small molecule hosts have effectively enhanced the quantum efficiency of the solution processed phosphorescent OLEDs. Therefore, this paper reviews recent developments in small molecule host materials for solution processed phosphorescent OLEDs and provides future directions for the development of the small molecule host materials.

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Recent Progress in High‐Efficiency Blue‐Light‐Emitting Materials for Organic Light‐Emitting Diodes

Byun

Kim

et al. 2017

Adv Funct Materials

514

263

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Organic light-emitting diodes (OLEDs) are increasingly used in displays replacing traditional flat panel displays; e.g., liquid crystal displays. Especially, the paradigm shifts in displays from rigid to flexible types accelerated the market change from liquid crystal displays to OLEDs. However, some critical issues must be resolved for expansion of OLED use, of which blue device performance is one of the most important. Therefore, recent OLED material development has focused on the design, synthesis and application of highefficiency and long-life blue emitters. Well-known blue fluorescent emitters have been modified to improve their efficiency and lifetime, and blue phosphorescent emitters are being investigated to overcome the lifetime issue. Recently, thermally activated delayed fluorescent emitters have received attention due to the potential of high-efficiency and long-living emitters. Therefore, it is timely to review the recent progress and future prospects of high-efficiency blue emitters. In this feature article, we summarize recent developments in blue fluorescent, phosphorescent and thermally activated delayed fluorescent emitters, and suggest key issues for each emitter and future development strategies.

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Stable Blue Thermally Activated Delayed Fluorescent Organic Light‐Emitting Diodes with Three Times Longer Lifetime than Phosphorescent Organic Light‐Emitting Diodes

et al. 2015

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Jun Yeob Lee

Molecular Design Strategy of Organic Thermally Activated Delayed Fluorescence Emitters

Organic Materials for Deep Blue Phosphorescent Organic Light‐Emitting Diodes

Small Molecule Host Materials for Solution Processed Phosphorescent Organic Light‐Emitting Diodes

Recent Progress in High‐Efficiency Blue‐Light‐Emitting Materials for Organic Light‐Emitting Diodes

Stable Blue Thermally Activated Delayed Fluorescent Organic Light‐Emitting Diodes with Three Times Longer Lifetime than Phosphorescent Organic Light‐Emitting Diodes

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