Highly Efficient p‐i‐n and Tandem Organic Light‐Emitting Devices Using an Air‐Stable and Low‐Temperature‐Evaporable Metal Azide as an n‐Dopant |
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Authors: | Kyoung Soo Yook Soon Ok Jeon Sung‐Yong Min Jun Yeob Lee Ha‐Jin Yang Taeyong Noh Sung‐Kee Kang Tae‐Woo Lee |
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Affiliation: | 1. Department of Polymer Science and Engineering Dankook University Jukjeon‐dong, Suji‐gu, Yongin, Gyeonggi‐do, 448‐701 (Korea);2. Department of Materials Science and Engineering Pohang University of Science and Technology San 31 Hyoja‐dong, Nam‐gu, Pohang, Gyeongbuk 790‐784 (Korea);3. Samsung Mobile Displays Mt. 14‐1, Nongseo‐dong, Giheung‐gu, Yongin‐si, Gyeonggi‐do 446‐712 (Korea) |
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Abstract: | Cesium azide (CsN3) is employed as a novel n‐dopant because of its air stability and low deposition temperature. CsN3 is easily co‐deposited with the electron transporting materials in an organic molecular beam deposition chamber so that it works well as an n‐dopant in the electron transport layer because its evaporation temperature is similar to that of common organic materials. The driving voltage of the p‐i‐n device with the CsN3‐doped n‐type layer and a MoO3‐doped p‐type layer is greatly reduced, and this device exhibits a very high power efficiency (57 lm W?1). Additionally, an n‐doping mechanism study reveals that CsN3 was decomposed into Cs and N2 during the evaporation. The charge injection mechanism was investigated using transient electroluminescence and capacitance–voltage measurements. A very highly efficient tandem organic light‐emitting diodes (OLED; 84 cd A?1) is also created using an n–p junction that is composed of the CsN3‐doped n‐type organic layer/MoO3 p‐type inorganic layer as the interconnecting unit. This work demonstrates that an air‐stable and low‐temperature‐evaporable inorganic n‐dopant can very effectively enhance the device performance in p‐i‐n and tandem OLEDs, as well as simplify the material handling for the vacuum deposition process. |
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Keywords: | Organic light‐emitting diodes Cathode Cesium azide Dopants |
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