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Enabling High-Throughput, Low-Cost Manufacturing of OLED Display and Lighting Panels

Published online by Cambridge University Press:  31 January 2011

Michael Long
Affiliation:
disruptive.tech.solutions@hotmail.com, Eastman Kodak Company, OLED Business Unit, Rochester, New York, United States
Bruce E Koppe
Affiliation:
bruce.koppe@kodak.com, Eastman Kodak Company, OLED Business Unit, Rochester, New York, United States
Neil P Redden
Affiliation:
neil.redden@kodak.com, Eastman Kodak Company, OLED Business Unit, Rochester, New York, United States
Michael L Boroson
Affiliation:
michael.boroson@kodak.com, Eastman Kodak Company, OLED Business Unit, Rochester, New York, United States
Tukaram K Hatwar
Affiliation:
tukaram.hatwar@kodak.com, Eastman Kodak Company, OLED Business Unit, Rochester, New York, United States
John W Hamer
Affiliation:
john.hamer@kodak.com, Eastman Kodak Company, OLED Business Unit, Rochester, New York, United States
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Abstract

Large-scale manufacturing of organic light-emitting diode (OLED) panels for lighting and display has been slowed by several manufacturing factors, prominent among which are low throughput due in part to the fine metal mask technology for patterning the red-, green-, and blue-light-emitting pixels and low materials utilization efficiency of the available vacuum deposition technology. To overcome these impediments to low-cost OLED manufacturing, Kodak developed a blanket white-emitting OLED architecture in combination with a pixilated color filter array to eliminate the need for fine metal masks and developed a vacuum deposition technology capable of high deposition rates and high materials utilization efficiency. These developments, taken together, allow much higher throughput and yield on fifth-generation and larger substrates that promise to enable low-cost manufacturing of OLED displays and lighting panels. This paper focuses on the deposition technology Kodak developed, a flash vaporization process that can deliver very high materials utilization efficiency at high deposition rates for small-molecule OLED materials without increasing material decomposition.

Type
Research Article
Copyright
Copyright © Materials Research Society 2010

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References

1 Rajeswaran, G., Itoh, M., Boroson, M., Barry, S., Hatwar, T. K., Kahen, K., Yoneda, K., Komiya, N., Kanno, H., and Takahashi, H., “Active Matrix Low Temperature Poly-Si TFT / OLED Full Color Displays: Development Status,” SID Symposium Digest 31, 974977 (2000).Google Scholar
2 Tsujimura, T., Kobayashi, Y., Murayama, K., Tanaka, A., Morooka, M., Fukumoto, E., Fujimoto, H., Sekine, J., Kanoh, K., Takeda, K., Miwa, K., Asano, M., Ikeda, N., Kohara, S., Ono, S., Chung, C. T., Chen, R. M., Chung, J. W., Huang, C. W., Guo, H. R., Yang, C. C., Hsu, C. C., Huang, H. J., Riess, W., Riel, H., Karg, S., Beierlein, T., Gundlach, D., Alvarado, S., Rost, C., Mueller, P., Libsch, F., Mastro, M., Polastre, R., Lien, A., Sanford, J., and Kaufman, R., “A 20-inch OLED Display Driven by Super-Amorphous-Silicon Technology,” SID Symposium Digest 34, 6-9 (2003).Google Scholar
3 Hatwar, T. K., Spindler, J. P., Ricks, M. L., Young, R. H., Hamada, Y., Saito, N., Mameno, K., Nishikawa, R., Takahashi, H., and Rajeswaran, G., SPIE 5214, 233 (2003).Google Scholar
4 Hamer, J. W., Yamamoto, A., Rajeswaran, G., and Slyke, S. A. Van, “Mass Production of Full-Color AMOLED Displays,” SID Symposium Digest 36, 19021907 (2005).Google Scholar
5 Seki, S., Uchida, M., Sonoyama, T., Ito, M., Watanabe, S., Sakai, S., and Miyashita, S., Current Status of Printing OLEDs. SID Symposium Digest 40, 593596 (2009).Google Scholar
6 O'Regan, M., “Solution Processed OLED Displays: Advances in Performance, Resolution, Lifetime and Appearance,” SID Symposium Digest 40, 600602 (2009).Google Scholar
7 Lee, S., Chin, B., Kim, M., Kang, T., Song, M., Lee, J., Kim, H., Chung, H., Wolk, M., Bellmann, E., Baetzold, J., Lamansky, S., Savvateev, V., Hoffend, T., Staral, J., Roberts, R., Li, Y., “A Novel Patterning Method for Full-Color Organic Light-Emitting Devices: Laser Induced Thermal Imaging (LITI),” SID Symposium Digest 35, 10081011 (2004).Google Scholar
8 Boroson, M., Tutt, L., Nguyen, K., Preuss, D., Culver, M., and Phelan, G., “Non-Contact OLED Color Patterning by Radiation-Induced Sublimation Transfer (RIST),” SID Symposium Digest 36, 972975 (2005).Google Scholar
9 Hirano, T., Matsuo, K., Kohinata, K., Hanawa, K., Matsumi, T., Matsuda, E., Matsuura, R., Ishibashi, T., Yoshida, A., and Sasaoka, T., “Novel Laser Transfer Technology for Manufacturing Large-Sized OLED Displays,” SID Symposium Digest 38, 15921595 (2007).Google Scholar
10 Mameno, K., Suzuki, K., Ichikawa, N., Nishikawa, R., Hamada, Y., Kinoshita, T., Matsuoka, H., Rajeswaran, G., and Hatwar, T. K., 8th Int. Conf. Electron. Mater. 275 (2002).Google Scholar
11 Spindler, J. P., Hatwar, T. K., Miller, M. E., Arnold, A. D., Murdoch, M. J., Kane, P. J., Ludwicki, J. E., and Slyke, S. A. Van, “Lifetime-and Power-Enhanced RGBW Displays Based on White OLEDs,” SID Symposium Digest 36, 3639 (2005).Google Scholar
12 Hatwar, T. K., Spindler, J. P., Vargas, J. R., Helber, M., Klubek, K., Begley, W., Itoh, M., Hamer, J., and Slyke, S. A. Van, “Advances in White OLED Tandem Architecture for Next Generation AMOLED Displays,” IMID '07 Digest 1577 (2007).Google Scholar
13 Hamer, J. W., Arnold, A. D., Boroson, M. L., Itoh, M., Hatwar, T. K., Helber, M. J., Miwa, K., Levey, C. I., Long, M., Ludwicki, J. E., Scheirer, D. C., Spindler, J. P., and Slyke, S. A. Van, “System Design for a High Color-Gamut TV-sized AMOLED Display,” SID Symposium Digest 38, 1574 (2007).Google Scholar
14 Arnold, A., Hatwar, T. K., Hettel, M., Kane, P., Miller, M., Murdoch, M., Spindler, J., Slyke, S. A. Van, Mameno, K., Nishikawa, R., Omura, T., and Matsumoto, S., “Full-color AMOLED with RGBW Pixel Pattern,” Proc. Asia Display / IMID '04 Digest 809 (2004).Google Scholar
15 Spindler, J., Hatwar, T. K., Miller, M. E., Arnold, A. D., Murdoch, M. J., Kane, P. J., Ludwicki, J. E., and Slyke, S. A. Van, “Lifetime- and Power-Enhanced RGBW Displays Based on White OLEDs,” SID Symposium Digest 36, 36 (2005).Google Scholar
16 Hatwar, T. K., Spindler, J., and Slyke, S. A. Van, “High Performance Tandem OLEDs for Large Area Full Color AM Displays and Lighting Applications,” IMID '06 Digest 1582 (2006).Google Scholar
17 Long, M., Koppe, B. E., Redden, N. P., and Boroson, M. L., “Responsive Vacuum Deposition Technology for Cost-Effective OLED Manufacturing,” SID Symposium Digest 40, 943946 (2009).Google Scholar
18 Long, M., Boroson, M. L., Freeman, D. R., Koppe, B. E., Palone, T. W., and Redden, N. P., “Cost Competitive Vacuum Deposition Technology for Small Molecule OLED Manufacturing,” SID Symposium Digest 39, 507510 (2008).Google Scholar
19 Long, M., Grace, J. M., Freeman, D. R., Redden, N. P., Koppe, B. E., and Brost, R. C., “New Capabilities in Vacuum Thermal Evaporation Sources,” SID Symposium Digest 37, 14741476 (2006).Google Scholar