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Artykuły w czasopismach na temat „White, OLED, high efficiency”

Autor: Grafiati
Data publikacji: 4 czerwca 2021
Data aktualizacji: 10 lutego 2022

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1

ZHANG Gang, 张刚, 田晓萃 TIAN Xiao-cui, 高永慧 GAO Yong-hui, et al. "High Efficiency and Luminance White OLED Based on Fluorescence Dopant." Chinese Journal of Luminescence 34, no. 12 (2013): 1603–6. http://dx.doi.org/10.3788/fgxb20133412.1603.

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Zhang, T., S. J. He, D. K. Wang, N. Jiang, and Z. H. Lu. "Application of compound blue for white OLED." Canadian Journal of Physics 92, no. 7/8 (2014): 947–50. http://dx.doi.org/10.1139/cjp-2013-0520.

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Used as a blue emitter, fluorescent dye 4,4′-bis(9-ethyl-3-carbazovinylene)-1,1′-biphenyl (BCzVBi) is compounded with Bis[2-(2-hydroxyphenyl)-pyridine]beryllium(Bepp2) to yield high efficiency. When combined with green and red phosphorescent emitting layers, a broad band white light organic light-emitting diodes are obtained and studied. In this device, both singlet and triplet excitons can be harvested to generate white color. Through device structure optimization, a high efficiency of 20.8 cd/A, which corresponds to an external quantum efficiency of 11.3% has been achieved.
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Lee, Meng-Ting, Jin-Sheng Lin, Miao-Tsai Chu, and Mei-Rurng Tseng. "P-154: High Efficiency White-Phosphorescent OLED with Host-Free Yellow Emitter." SID Symposium Digest of Technical Papers 41, no. 1 (2010): 1827. http://dx.doi.org/10.1889/1.3500351.

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4

Yao, Zi Jun, Hua Jing Zheng, Zheng Ruan, and Quan Jiang. "The Performance of White Light OLED Phosphorescence Materials." Advanced Materials Research 512-515 (May 2012): 1807–12. http://dx.doi.org/10.4028/www.scientific.net/amr.512-515.1807.

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High-efficiency WOLEDs based on phosphorescent dye bis[2-(4-tert-butylphenyl)benzothiazolato-N,C2′]iridium (acetylacetonate) [(t-bt)2 lr (acac)] as yellow emitting layer were fabricated. The turn-on voltage of the device was 3 V with a maximum luminance of 15,460 cd/m2 at 16.5 V and a maximum luminance efficiency of 7.5 lm/W at 4 V. The CIE coordinates located at (0.33, 0.32) and remained unchanged at over 8 V, almost consistent with optimum the white CIE of (0.33, 0.33). The effect of carrier trapping and energy transfer on the device performance was also discussed.
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5

Murano, Sven, Erol Kucur, Gufeng He, et al. "30.3: White Fluorescent PIN OLED with High Efficiency and Lifetime for Display Applications." SID Symposium Digest of Technical Papers 40, no. 1 (2009): 417. http://dx.doi.org/10.1889/1.3256803.

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6

Tung, Yeh-Jiun, Tan Ngo, Michael Hack, et al. "5.2: A High Efficiency Phosphorescent White OLED for LCD Backlight and Display Applications." SID Symposium Digest of Technical Papers 35, no. 1 (2004): 48. http://dx.doi.org/10.1889/1.1811453.

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7

Komoda, Takuya, Kazuyuki Yamae, Varutt Kitichungchit, Hiroya Tsuji, and Nobuhiro Ide. "High Efficiency White OLEDs for Lighting." Journal of Photopolymer Science and Technology 25, no. 3 (2012): 321–26. http://dx.doi.org/10.2494/photopolymer.25.321.

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8

Tsuji, Hiroya, Kazuyuki Yamae, Varutt Kittichungchit, Nobuhiro Ide, and Takuya Komoda. "High-efficiency Technology of White OLEDs." Journal of Photopolymer Science and Technology 26, no. 3 (2013): 415–19. http://dx.doi.org/10.2494/photopolymer.26.415.

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9

Lin, Jin-Sheng, Meng-Ting Lee, Miao-Tsai Chu, and Mei-Rurng Tseng. "P-221L: Late-News Poster: New Blue Phosphorescent Host for High-efficiency White OLED." SID Symposium Digest of Technical Papers 42, no. 1 (2011): 1787–89. http://dx.doi.org/10.1889/1.3621241.

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10

Yang, Su-Hua, and Tao-Liang Huang. "High fluorescence efficiency of dual-wavelength white OLED with NPB emission and triplet annihilation." Optical Materials 111 (January 2021): 110725. http://dx.doi.org/10.1016/j.optmat.2020.110725.

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11

Nakayama, Tomoyuki, Kunimasa Hiyama, Keiichi Furukawa, and Hirofumi Ohtani. "Development of a phosphorescent white OLED with extremely high power efficiency and long lifetime." Journal of the Society for Information Display 16, no. 2 (2008): 231. http://dx.doi.org/10.1889/1.2841855.

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12

Huang, Chen-Chao, Miao-Miao Xue, Fu-Peng Wu, Yi Yuan, Liang-Sheng Liao, and Man-Keung Fung. "Deep-Blue and Hybrid-White Organic Light Emitting Diodes Based on a Twisting Carbazole-Benzofuro[2,3-b]Pyrazine Fluorescent Emitter." Molecules 24, no. 2 (2019): 353. http://dx.doi.org/10.3390/molecules24020353.

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A novel deep-blue fluorescent emitter was designed and synthesized. The external quantum efficiency (ηEQE) of the blue-emitting, doped, organic light-emitting diode (OLED) was as high as 4.34%. The device also exhibited an excellent color purity with Commission Internationale de l’Eclairage (CIE) coordinates of x = 0.15 and y = 0.05. In addition, the triplet energy had a value of 2.7 eV, which is rare for an emitter with deep-blue emission, which makes it a preferred choice for high-performance white OLEDs. By optimizing the device architectures, the color of hybrid-white OLEDs could be tunabl
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13

Komoda, Takuya, Toshihiro Iwakuma, Minoru Yamamoto, Nobuto Oka, and Yuzo Shigesato. "High-Performance and High-CRI OLEDs for Lighting and Their Fabrication Processes." Advances in Science and Technology 75 (October 2010): 65–73. http://dx.doi.org/10.4028/www.scientific.net/ast.75.65.

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The improvement of the basic performance makes white OLEDs the promising candidate of the next generation, environmental friendly lighting source. However, for the practical application, additional properties of higher color rendering index (CRI), long lifetime at high luminance, large area uniform light emission, and high reliability for long time operation are required. Furthermore, innovative fabrication processes specialized for OLED lighting are required to reduce the cost by improving the material utilization and productivity. We developed various technologies for OLED lighting in the Ja
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14

Zhang, Gang, Chen Chen, Jihui Lang, Lina Zhao, and Wenlong Jiang. "High efficiency fluorescent white OLEDs based on DOPPP." Modern Physics Letters B 31, no. 23 (2017): 1750220. http://dx.doi.org/10.1142/s0217984917502207.

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The white organic light-emitting devices (WOLED) with the structures of ITO/m-MTDATA (10 nm)/NPB (30 nm)/Rubrene (0.2 nm)/DOPPP (x nm)/TAz (10 nm)/Alq3 (30 nm)/LiF (0.5 nm)/Al and ITO/NPB (30 nm)/DPAVBi:Rubrene (2 wt.%, 20 nm)/ DOPPP (x nm)/TAZ (10 nm)/Alq3 (30 nm)/LiF (0.5 nm)/Al (100 nm) have been fabricated by the vacuum thermal evaporation method. The results show that the chroma of the non-doped device is the best and the color coordinates are in the range of white light. The maximum luminance is 12,750 cd/m2 and the maximum current efficiency is 8.55 cd/A. The doped device A has the maxi
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15

Nakayama, Tomoyuki, Kunimasa Hiyama, Keiichi Furukawa, and Hirofumi Ohtani. "19.1:Invited Paper: Development of Phosphorescent White OLED with Extremely High Power Efficiency and Long Lifetime." SID Symposium Digest of Technical Papers 38, no. 1 (2007): 1018–21. http://dx.doi.org/10.1889/1.2785478.

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16

Cheng, Gang, Steven C. F. Kui, Wai-Hung Ang, et al. "Structurally robust phosphorescent [Pt(O^N^C^N)] emitters for high performance organic light-emitting devices with power efficiency up to 126 lm W−1 and external quantum efficiency over 20%." Chem. Sci. 5, no. 12 (2014): 4819–30. http://dx.doi.org/10.1039/c4sc01105h.

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17

Li, Shumei, Xu Li, Lizhong Wang, and Hongbo Liu. "Study on the Fabrication of White Organic Light-Emitting Devices Using the Doping Characteristics of Rubrene and Programmed Test Circuit." Journal of Nanoscience and Nanotechnology 18, no. 12 (2018): 8409–13. http://dx.doi.org/10.1166/jnn.2018.16380.

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A white organic light emitting device with structure of ITO/2T-NATA(20)/NPBX(15)/DPVBi(15)/ Alq:Rub(10, x)/Alq3(40)/LiF/Al was fabricated using doping rubrene. When the concentration of rubrene is 3 wt.%, the chromaticity is the best (0.319, 0.317), and the color coordinates are stable. When the thickness of the doping layer is 20 nm, the efficiency and luminance of the devices are the highest, which are 5.1022 cd/A and 17130 cd/m2, respectively. On the basis, a test system is consisted of Solomon’s OLED display control driver chip SSD1306 and microcontroller AT89C52, which tests the OLED dot
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18

Yamae, Kazuyuki, Hiroya Tsuji, Varutt Kittichungchit, et al. "51.4: High-Efficiency White OLEDs with Built-up Outcoupling Substrate." SID Symposium Digest of Technical Papers 43, no. 1 (2012): 694–97. http://dx.doi.org/10.1002/j.2168-0159.2012.tb05877.x.

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19

Son, Young Hoon, Jung Min Lee, Byoung Yeop Kang, and Jang Hyuk Kwon. "38.2:Distinguished Student Paper: High-Efficiency Three-Stack Tandem White OLEDs." SID Symposium Digest of Technical Papers 46, no. 1 (2015): 561–63. http://dx.doi.org/10.1002/sdtp.10476.

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20

Li, Juntong, Chuang Xue, Gang Zhang, Minghui Liu, Lizhong Wang, and Wenlong Jiang. "Study of the white organic electroluminescent devices performance based on phosphorescent dyes FCNIrPic." Materials Express 9, no. 6 (2019): 604–9. http://dx.doi.org/10.1166/mex.2019.1539.

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Two kinds of high efficient white-light OLED devices based on blue phosphorescent material FCNIrPic(Bis(3,5-difluoro-4-cyano-2-(2-pyridyl)phenyl-(2-carboxypyridyl) iridium(III))) were fabricated by means of the principle of whitening with blue-yellow complementary colors. Firstly, white-light device A was fabricated by the hybrid of yellow fluorescent material Rubrene and blue-light layer of phosphorescent FCNIrPic. The device structure is ITO/m-MTDATA/NPB/Rub/MCP: FCNIrPiC/Alq3/LiF/Al. The structure of the device is optimized by adjusting the thickness of phosphorescent doping layer MCP: FCNI
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21

Zhan, Xuejun, Zhongbin Wu, Yanbin Gong, et al. "Utilizing Electroplex Emission to Achieve External Quantum Efficiency up to 18.1% in Nondoped Blue OLED." Research 2020 (February 27, 2020): 1–13. http://dx.doi.org/10.34133/2020/8649102.

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For the first time, electroplex emission is utilized to enhance the performance of nondoped blue organic light-emitting diodes (OLEDs). By decorating the twisted blue-emitting platform and adjusting the electronic structure, three molecules of 3Cz-Ph-CN, 3Cz-mPh-CN, and 3Ph-Cz-CN with a donor-acceptor structure are synthesized and investigated. When external voltage is applied, electroplex emission, which contributes to the emission performance of OLED, can be realized at the interface between the emitting layer and the electron-transporting layer. Accordingly, high external quantum efficiency
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22

Jou, Jwo-Huei, and Yi-Chieh Chou. "P-200L: Late-News Poster: High-Efficiency, High Color Rendering White OLEDs with Five Emitters." SID Symposium Digest of Technical Papers 41, no. 1 (2010): 1902. http://dx.doi.org/10.1889/1.3500386.

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23

Li, Wei, Jiuyan Li, Di Liu, and Qian Jin. "Simple Bipolar Host Materials for High-Efficiency Blue, Green, and White Phosphorescence OLEDs." ACS Applied Materials & Interfaces 8, no. 34 (2016): 22382–91. http://dx.doi.org/10.1021/acsami.6b05355.

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24

Zhao, Juan, Xiaojie Chen, Zhan Yang, Yi Zhang, and Zhenguo Chi. "28‐2: Invited Paper: The Development of High‐Efficiency Pure Organic Light‐Emitting Materials and High‐Performance White OLEDs." SID Symposium Digest of Technical Papers 52, no. 1 (2021): 353–56. http://dx.doi.org/10.1002/sdtp.14689.

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25

Song, Wenfeng, Juanjuan You, Chang-Yen Wu, et al. "5‐3: 3‐Stacked Top‐Emitting White OLEDs with Super‐Wide Color Gamut and High Efficiency." SID Symposium Digest of Technical Papers 50, no. 1 (2019): 46–49. http://dx.doi.org/10.1002/sdtp.12852.

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26

Chang, Chih-Hao, Chih-Kai Chang, Chun-Liang Lin, et al. "64.3: High-Efficiency Phosphorescent White OLEDs Using Red-Emitting Osmium Complex and Blue-Emitting Iridium Complex." SID Symposium Digest of Technical Papers 38, no. 1 (2007): 1772–75. http://dx.doi.org/10.1889/1.2785674.

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27

Du, Xiaoyang, Juewen Zhao, Shaolin Yuan, et al. "High-performance fluorescent/phosphorescent (F/P) hybrid white OLEDs consisting of a yellowish-green phosphorescent emitter." Journal of Materials Chemistry C 4, no. 25 (2016): 5907–13. http://dx.doi.org/10.1039/c6tc01421f.

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28

Liu, Baiquan, Lei Wang, Dongyu Gao, et al. "Harnessing charge and exciton distribution towards extremely high performance: the critical role of guests in single-emitting-layer white OLEDs." Materials Horizons 2, no. 5 (2015): 536–44. http://dx.doi.org/10.1039/c5mh00051c.

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29

Wang, Jun, and Weizhi Li. "Adjusting White OLEDs with Yellow Light Emission Phosphor Dye and Ultrathin NPB Layer Structure." International Journal of Photoenergy 2013 (2013): 1–6. http://dx.doi.org/10.1155/2013/639843.

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High efficiency white organic light emission devices were demonstrated with phosphor material dye bis[2-(4-tertbutylphenyl)benzothiazolato-N,C2′]iridium (acetylacetonate) and ultrathin layer structure. The ultra thin layer be composed of 4,4′-bis[N-1-naphthyl-N-phenyl-amino]biphenyl (NPB) or 4,4′-N,N′-dicarbazole-biphenyl : NPB mixed layer with blue light emission. The emission spectra of devices could be adjusted by different phosphor doping concentrations and ultra thin layer structure. Warm white light emitting device could be obtained with 5 wt% doping concentration and power efficiency of
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30

Jou, Jwo-Huei, Pei-Yu Hwang, Wei-Ben Wang, and Cheng-Wei Lin. "P-199L: Late-News Poster: High-Efficiency Low Color Temperature White OLEDs with Solution-Processed Emissive Layer." SID Symposium Digest of Technical Papers 41, no. 1 (2010): 1899. http://dx.doi.org/10.1889/1.3500384.

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31

Li, Deguang, Bing Guo, Yan Shen, Junke Li, and Yanhui Huang. "Making Image More Energy Efficient for OLED Smart Devices." Mobile Information Systems 2016 (2016): 1–8. http://dx.doi.org/10.1155/2016/6575931.

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Now, more and more mobile smart devices are emerging massively; energy consumption of these devices has become an important consideration due to the limitation of battery capacity. Displays are the dominant energy consuming component of battery-operated devices, giving rise to organic light-emitting diode (OLED) as a new promising display technology, which consumes different power when displaying different content due to their emissive nature. Based on this property, we propose an approach to improve image energy efficiency on OLED displays by perceiving image content. The key idea of our appr
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32

Chandra, V. K., B. P. Chandra, and Piyush Jha. "Organic Light - Emitting Diodes and their Applications." Defect and Diffusion Forum 357 (July 2014): 29–93. http://dx.doi.org/10.4028/www.scientific.net/ddf.357.29.

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Organic light emitting diodes (OLEDs) have been the focus of intense study since the late 1980s, when the low voltage organic electroluminescence in small organic molecules such as Alq3, and large organic molecules such as polymers (PPV), was reported. Since that time, research has continued to demonstrate the potential of OLEDs as viable systems for displays and eco-friendly lighting applications. OLEDs offer full colour display, reduced manufacturing cost, larger viewing angle, more flexible, lower power consumption, better contrast, slimmer, etc. which help in replacing the other technologi
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33

Poloek, Anurach, Chin-Ti Chen, and Chao-Tsen Chen. "High performance hybrid white and multi-colour electroluminescence from a new host material for a heteroleptic naphthyridinolate platinum complex dopant." J. Mater. Chem. C 2, no. 8 (2014): 1376–80. http://dx.doi.org/10.1039/c3tc32394c.

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A new heteroleptic platinum complex FPtmND doped in a conventional CBP or new 4P-NPD host has been explored for high efficiency greenish-yellow or orange-red phosphorescent OLEDs, and high colour rendering index hybrid white OLEDs with simple device configuration.
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34

Zhu, Xiangyu, Yinghao Li, Zilong Wu, et al. "Anthracene-based bipolar deep-blue emitters for efficient white OLEDs with ultra-high stabilities of emission color and efficiency." Journal of Materials Chemistry C 9, no. 15 (2021): 5198–205. http://dx.doi.org/10.1039/d1tc00432h.

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High-performance two-color hybrid warm white OLEDs are fabricated using TPA-TAn-DMAC as blue emission layer, achieving ultra-high stabilities of EL efficiency and color at high luminance over 30 000 cd m<sup>−2</sup>.
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35

Hatwar, Tukaram K., and Jeffrey P. Spindler. "54.1: Novel Approach to Stabilize Blue OLEDs and Fabrication of High-Efficiency Tandem White OLEDs for Large-Area Display Applications." SID Symposium Digest of Technical Papers 39, no. 1 (2008): 814. http://dx.doi.org/10.1889/1.3069794.

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36

Liu, Hao, Jinke Chen, Yan Fu, Zujin Zhao, and Ben Zhong Tang. "Achieving High Electroluminescence Efficiency and High Color Rendering Index for All‐Fluorescent White OLEDs Based on an Out‐of‐Phase Sensitizing System." Advanced Functional Materials 31, no. 33 (2021): 2103273. http://dx.doi.org/10.1002/adfm.202103273.

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37

Guo, Li Yuan, Xun Lu Zhang, Hai Shan Wang, et al. "New homoleptic iridium complexes with C∧NN type ligand for high efficiency orange and single emissive-layer white OLEDs." Journal of Materials Chemistry C 3, no. 21 (2015): 5412–18. http://dx.doi.org/10.1039/c5tc00458f.

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38

Liao, Xiaoqing, Xin Yang, Rong Zhang, et al. "Solution-processed small-molecular white organic light-emitting diodes based on a thermally activated delayed fluorescence dendrimer." Journal of Materials Chemistry C 5, no. 38 (2017): 10001–6. http://dx.doi.org/10.1039/c7tc03134c.

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39

Liu, Hongbo, Lizhong Wang, Mingxing Song, and Shumei Li. "Chroma Stability of WOLED with High-Voltage." Nanoscience and Nanotechnology Letters 10, no. 3 (2018): 383–88. http://dx.doi.org/10.1166/nnl.2018.2613.

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Multilayer chroma stability of white OLEDs was realized with blue dye DPVBi and red dye DCJTB doped as luminescence layer. The blue dye doping concentration was kept at 6%, at the same time the red dye was reduced from 4%, 2%, 1% to 0.5%. The device color coordinates (CIE) were adjusted from (0.58, 0.42) to (0.31, 0.32), achieving the white light emission. A stable white emission for forward bias voltage changes from 6 to 17 V has been achieved. Its maximum luminance was 15030 cd/m2 at 17 V, and the maximum current efficiency was 4.65 cd/A at 9 V. We contributed the main reason of chroma stabi
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40

Hatwar, Tukaram K., Jeffrey P. Spindler, Marina Kondakova, David Giesen, Joseph Deaton, and J. Ramon Vargas. "52.2: Hybrid Tandem White OLEDs with High Efficiency and Long Life-time for AMOLED Displays and Solid-State Lighting." SID Symposium Digest of Technical Papers 41, no. 1 (2010): 778. http://dx.doi.org/10.1889/1.3500587.

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41

Chen, Yuwen, Qian Sun, Yanfeng Dai, Dezhi Yang, Xianfeng Qiao, and Dongge Ma. "High efficiency blue and color-stable hybrid warm white organic light-emitting diodes based on a thermally activated delayed fluorescent material as an assistant host." Journal of Materials Chemistry C 8, no. 39 (2020): 13777–85. http://dx.doi.org/10.1039/d0tc03644g.

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42

Kang, Jisu, Rena Zaen, Ki-Min Park, Kyung Hyung Lee, Jun Yeob Lee та Youngjin Kang. "Cyclometalated Platinum(II) β-Diketonate Complexes as Single Dopants for High-Efficiency White OLEDs: The Relationship between Intermolecular Interactions in the Solid State and Electroluminescent Efficiency". Crystal Growth & Design 20, № 9 (2020): 6129–38. http://dx.doi.org/10.1021/acs.cgd.0c00838.

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43

Liang, Jie, Chenglong Li, Xuming Zhuang, Kaiqi Ye, Yu Liu, and Yue Wang. "Novel Blue Bipolar Thermally Activated Delayed Fluorescence Material as Host Emitter for High-Efficiency Hybrid Warm-White OLEDs with Stable High Color-Rendering Index." Advanced Functional Materials 28, no. 17 (2018): 1707002. http://dx.doi.org/10.1002/adfm.201707002.

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44

Zhang, Dongdong, Deqiang Zhang, and Lian Duan. "Exploiting p-Type Delayed Fluorescence in Hybrid White OLEDs: Breaking the Trade-off between High Device Efficiency and Long Lifetime." ACS Applied Materials & Interfaces 8, no. 35 (2016): 23197–203. http://dx.doi.org/10.1021/acsami.6b07107.

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45

Keruckiene, Rasa, Simona Vekteryte, Ervinas Urbonas, et al. "Synthesis and properties of quinazoline-based versatile exciplex-forming compounds." Beilstein Journal of Organic Chemistry 16 (May 28, 2020): 1142–53. http://dx.doi.org/10.3762/bjoc.16.101.

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Three compounds, bearing a quinazoline unit as the acceptor core and carbazole, dimethyldihydroacridine, or phenothiazine donor moieties, were designed and synthesized in two steps including a facile copper-catalyzed cyclization and a nucleophilic aromatic substitution reaction. The photophysical properties of the compounds, based on theoretical calculations and experimental measurements, as well as the electrochemical and thermal properties, are discussed. The synthesized compounds form glasses with glass-transition temperatures ranging from 116 °C to 123 °C. The ionization potentials estimat
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46

Liu, Yuan, Lin-Song Cui, Mei-Feng Xu, et al. "Highly efficient single-layer organic light-emitting devices based on a bipolar pyrazine/carbazole hybrid host material." J. Mater. Chem. C 2, no. 14 (2014): 2488–95. http://dx.doi.org/10.1039/c3tc32301c.

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Song, Jian, Fujun Zhang, Liping Yang, et al. "Highly efficient, ultralow turn-on voltage red and white organic light-emitting devices based on a novel exciplex host." Materials Advances 2, no. 11 (2021): 3677–84. http://dx.doi.org/10.1039/d0ma01005g.

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We have prepared high-performance white OLEDs based on exciplex systems and blue ultra-thin FIrPic layers, exhibiting a low turn-on voltage of 2.2 V with a maximum power efficiency of 34.1 lm W<sup>−1</sup>, and the CIE coordinate (0.33,0.33) at 1000 cd m<sup>−2</sup>.
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Ho, C. L., W. Y. Wong, G. J. Zhou, B. Yao, Z. Xie, and L. Wang. "Solution-Processible Multi-component Cyclometalated Iridium Phosphors for High-Efficiency Orange-Emitting OLEDs and Their Potential Use as White Light Sources." Advanced Functional Materials 17, no. 15 (2007): 2925–36. http://dx.doi.org/10.1002/adfm.200601205.

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Wang, Jiong, Yuzhu Wang, Yue Qin, et al. "Highly efficient ultra-flexible tandem organic light-emitting diodes adopting a non-doped charge generation unit." Journal of Materials Chemistry C 9, no. 27 (2021): 8570–78. http://dx.doi.org/10.1039/d1tc01157j.

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An efficient CGU is applied to the high efficiency super-flexible white TOLEDs, which show a higher PE than the single OLEDs. After being bent for 3000 cycles, the devices retain ∼90% of the original luminance.
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Li, Jie, Heqi Gong, Jincheng Zhang, et al. "Efficient Exciplex-Based Deep-Blue Organic Light-Emitting Diodes Employing a Bis(4-fluorophenyl)amine-Substituted Heptazine Acceptor." Molecules 26, no. 18 (2021): 5568. http://dx.doi.org/10.3390/molecules26185568.

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The realization of a deep-blue-emitting exciplex system is a herculean task in the field of organic light-emitting diodes (OLEDs) on account of a large red-shifted and broadened exciplex emission spectrum in comparison to those of the corresponding single compounds. Herein, 2,5,8-tris(di(4-fluorophenyl)amine)-1,3,4,6,7,9,9b-heptaazaphenalene (HAP-3FDPA) was designed as an electron acceptor by integrating three bis(4-fluorophenyl)amine groups into a heptazine core, while 1,3-di(9H-carbazol-9-yl)benzene (mCP) possessing two electron-donating carbazole moieties was chosen as the electron donor. E
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