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NTIS 바로가기ACS photonics, v.6 no.11, 2019년, pp.2957 - 2965
Kim, Seong Keun (Department of Information Display , Kyung Hee University , Kyungheedae-ro, Dongdaemoon-gu, Seoul 02447 , Republic of Korea) , Lampande, Raju (Department of Information Display , Kyung Hee University , Kyungheedae-ro, Dongdaemoon-gu, Seoul 02447 , Republic of Korea) , Kwon, Jang Hyuk
To attain high efficiency and stability in a top-emission organic light-emitting diode (TEOLED), the semitransparent metal cathode must have high transmittance, low absorbance, and uniform surface properties under continuous driving conditions. However, conventional semitransparent metal electrodes ...
IJSRP Patel B. N. 6 4 2014
IJCA Nikam M. 31 2012
Hofmann, Simone, Thomschke, Michael, Lüssem, Björn, Leo, Karl. Top-emitting organic light-emitting diodes. Optics express, vol.19, no.6, A1250-.
Delbeke, D., Bockstaele, R., Bienstman, P., Baets, R., Benisty, H.. High-efficiency semiconductor resonant-cavity light-emitting diodes: a review. IEEE journal on selected topics in quantum electronics : a publication of the IEEE Communications Society, vol.8, no.2, 189-206.
Chen, Shufen, Deng, Lingling, Xie, Jun, Peng, Ling, Xie, Linghai, Fan, Quli, Huang, Wei. Recent Developments in Top‐Emitting Organic Light‐Emitting Diodes. Advanced materials, vol.22, no.46, 5227-5239.
Wu, Chung-Chih, Chen, Chieh-Wei, Lin, Chun-Liang, Yang, Chih-Jen. Advanced organic light-emitting devices for enhancing display performances. Journal of display technology, vol.1, no.2, 248-266.
Springer, J., Poruba, A., Müllerova, L., Vanecek, M., Kluth, O., Rech, B.. Absorption loss at nanorough silver back reflector of thin-film silicon solar cells. Journal of applied physics, vol.95, no.3, 1427-1429.
Parthasarathy, G., Burrows, P. E., Khalfin, V., Kozlov, V. G., Forrest, S. R.. A metal-free cathode for organic semiconductor devices. Applied physics letters, vol.72, no.17, 2138-2140.
Kim, Han-Ki, Lee, Kyu-Sung, Kwon, J. H.. Transparent indium zinc oxide top cathode prepared by plasma damage-free sputtering for top-emitting organic light-emitting diodes. Applied physics letters, vol.88, no.1, 012103-.
Stössel, M., Staudigel, J., Steuber, F., Simmerer, J., Winnacker, A.. Impact of the cathode metal work function on the performance of vacuum-deposited organic light emitting-devices. Applied physics. A, Materials science & processing, vol.68, no.4, 387-390.
Liu, Yuan, Guo, Chuan-Fei, Huang, Siya, Sun, Tianyi, Wang, Yumei, Ren, Zhifeng. A new method for fabricating ultrathin metal films as scratch-resistant flexible transparent electrodes. Journal of materiomics, vol.1, no.1, 52-59.
Noginov, M. A., Zhu, G., Bahoura, M., Adegoke, J., Small, C. E., Ritzo, B. A., Drachev, V. P., Shalaev, V. M.. Enhancement of surface plasmons in an Ag aggregate by optical gain in a dielectric medium. Optics letters, vol.31, no.20, 3022-.
Sui, Mao, Li, Ming-Yu, Kunwar, Sundar, Pandey, Puran, Zhang, Quanzhen, Lee, Jihoon. Effects of annealing temperature and duration on the morphological and optical evolution of self-assembled Pt nanostructures on c-plane sapphire. PloS one, vol.12, no.5, e0177048-.
Cusumano, P., Buttitta, F., Di Cristofalo, A., Calı́, C.. Effect of driving method on the degradation of organic light emitting diodes. Synthetic metals, vol.139, no.3, 657-661.
Duan, Lian, Qiu, Yong, Zhang, Guo Hui, Song, Liu, Ren, Xue Yan. P‐159: Decomposable Alkali Compounds for Transparent Cathodes in OLEDs. Society for Information Display International Symposium digest of technical papers, vol.40, no.1, 1714-1715.
Tholen, A.R.. On the formation and interaction of small metal particles. Acta metallurgica, vol.27, no.11, 1765-1778.
Lang, N. D., Kohn, W.. Theory of Metal Surfaces: Work Function. Physical review B, Solid state, vol.3, no.4, 1215-1223.
Schubert, Sylvio, Meiss, Jan, Müller‐Meskamp, Lars, Leo, Karl. Organic Solar Cells: Improvement of Transparent Metal Top Electrodes for Organic Solar Cells by Introducing a High Surface Energy Seed Layer (Adv. Energy Mater. 4/2013). Advanced energy materials, vol.3, no.4, 409-409.
Zhang, Junce, Fryauf, David M., Garrett, Matthew, Logeeswaran, VJ, Sawabe, Atsuhito, Islam, M. Saif, Kobayashi, Nobuhiko P.. Phenomenological Model of the Growth of Ultrasmooth Silver Thin Films Deposited with a Germanium Nucleation Layer. Langmuir : the ACS journal of surfaces and colloids, vol.31, no.28, 7852-7859.
Jeong, Jin-A, Kim, Han-Ki. Low resistance and highly transparent ITO–Ag–ITO multilayer electrode using surface plasmon resonance of Ag layer for bulk-heterojunction organic solar cells. Solar energy materials and solar cells : an international journal devoted to photovoltaic, photothermal, and photochemical solar energy conversion, vol.93, no.10, 1801-1809.
Lee, S.M., Choi, C.S., Choi, K.C., Lee, H.C.. Low resistive transparent and flexible ZnO/Ag/ZnO/Ag/WO3 electrode for organic light-emitting diodes. Organic electronics, vol.13, no.9, 1654-1659.
Li, Chunya, Tang, Zhenyu, Si, Changfeng, Pan, Saihu, Zheng, Yanqiong, Chen, Guo, Zhu, Wenqing, Yang, Lianqiao, Wei, Bin. Ultrahigh-luminance organic light-emitting diodes using LiF/MgAg as cathode for the application of both surface emission. Molecular crystals and liquid crystals, vol.651, no.1, 142-147.
Liu, X., Poitras, D., Tao, Y., Py, C.. Microcavity organic light emitting diodes with double sided light emission of different colors. Journal of vacuum science & technology. A, Vacuum, surfaces, and films, vol.22, no.3, 764-767.
Kim, Gyeong Woo, Son, Young Hoon, Yang, Hye In, Park, Jin Hwan, Ko, Ik Jang, Lampande, Raju, Sakong, Jeonghun, Maeng, Min-Jae, Hong, Jong-Am, Lee, Ju Young, Park, Yongsup, Kwon, Jang Hyuk. Diphenanthroline Electron Transport Materials for the Efficient Charge Generation Unit in Tandem Organic Light-Emitting Diodes. Chemistry of materials : a publication of the American Chemical Society, vol.29, no.19, 8299-8312.
Wang, H., Chen, D., Wei, Y., Yu, L., Zhang, P., Zhao, J.. A localized surface plasmon resonance light scattering-based sensing of hydroquinone via the formed silver nanoparticles in system. Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy, vol.79, no.5, 2012-2016.
Prajapati, Roopali, Chatterjee, Surajit, Bhattacharya, Arpan, Mukherjee, Tushar Kanti. Surfactant-Induced Modulation of Nanometal Surface Energy Transfer from Silicon Quantum Dots to Silver Nanoparticles. The journal of physical chemistry. C, Nanomaterials and Interfaces, vol.119, no.23, 13325-13334.
Hüfner, S., Wertheim, G.K., Smith, N.V., Traum, M.M.. XPS density of states of copper, silver, and nickel. Solid state communications, vol.11, no.2, 323-326.
Zhang, Xiaodong, Wang, Yuxin, Hou, Fulin, Li, Hongxin, Yang, Yang, Zhang, Xinxin, Yang, Yiqiong, Wang, Yin. Effects of Ag loading on structural and photocatalytic properties of flower-like ZnO microspheres. Applied surface science, vol.391, no.2, 476-483.
Dietsche, R., Lim, D.C., Bubek, M., Lopez-Salido, I., Ganteför, G., Kim, Y.D.. Comparison of electronic structures of mass-selected Ag clusters and thermally grown Ag islands on sputter-damaged graphite surfaces. Applied physics. A, Materials science & processing, vol.90, no.3, 395-398.
Chen, B. J., Sun, X. W., Tan, S. C.. Transparent organic light-emitting devices with LiF/Mg:Ag cathode. Optics express, vol.13, no.3, 937-.
Gu, G., Bulović, V., Burrows, P. E., Forrest, S. R., Thompson, M. E.. Transparent organic light emitting devices. Applied physics letters, vol.68, no.19, 2606-2608.
Li, Y.Q., Tang, J.X., Xie, Z.Y., Hung, L.S., Lau, S.S.. An efficient organic light-emitting diode with silver electrodes. Chemical physics letters, vol.386, no.1, 128-131.
Ji, Wenyu, Zhang, Letian, Tianyu, Zhang, Xie, Wenfa, Zhang, Hanzhuang. High-contrast and high-efficiency microcavity top-emitting white organic light-emitting devices. Organic electronics, vol.11, no.2, 202-206.
Handbook of Optical Constants of Solids Palik E. D. 1991
Schulz, L. G.. An Experimental Confirmation of the Drude Free Electron Theory of the Optical Properties of Metals for Silver, Gold, and Copper in the Near Infrared. Journal of the Optical Society of America, vol.44, no.7, 540-.
Jeon, Woo Sik, Park, Jung Soo, Li, Ling, Lim, Dae Chul, Son, Young Hoon, Suh, Min Chul, Kwon, Jang Hyuk. High current conduction with high mobility by non-radiative charge recombination interfaces in organic semiconductor devices. Organic electronics, vol.13, no.6, 939-944.
Park, Mi Jin, Son, Young Hoon, Kim, Gyeong Heon, Lampande, Raju, Bae, Hyeong Woo, Pode, Ramchandra, Lee, Yoon Kyoo, Song, Won Jun, Kwon, Jang Hyuk. Device performances of third order micro-cavity green top-emitting organic light emitting diodes. Organic electronics, vol.26, 458-463.
Bin, Zhengyang, Dong, Guifang, Wei, Pengcheng, Liu, Ziyang, Zhang, Dongdong, Su, Rongchuan, Qiu, Yong, Duan, Lian. Making silver a stronger n-dopant than cesium via in situ coordination reaction for organic electronics. Nature communications, vol.10, 866-.
Park, Mi Jin, Kim, Gyeong Heon, Son, Young Hoon, Bae, Hyeong Woo, Kong, Ji Hoon, Kwon, Jang Hyuk. High efficiency red top-emitting micro-cavity organic light emitting diodes. Optics express, vol.22, no.17, 19919-.
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