[3] Yang Zhiwei,Han Shenghao,Yang Tianlin,et al. ITO films deposited on water-cooled flexible substrate by bias RF magnetron sputtering [J].Applied Surface Science,2000,161(1-2):279-285.
[4] Moro L,Krajewski T A,Rutherford N M,et al. Process and design of a multiplayer thin film encapsulation of passive matrix OLED displays [C].Proc SPIE,2004,5214: 832-93.
[5] Guenther E,Kumar R,S,et al. Building blocks for ultra thin,flexible organic electro-luminescent devices [C].Proc SPIE,2002,4464: 23-33.
[6] Gustafsson G,Cao Y,et al. Flexible light-emitting diodes made from soluble conducting polymers [J].Nature,1992,357: 477-479.
[8] Liao L S,Klubek K P,Tang C W. High-efficiency tandem organic light-emitting diodes [J].Appl. Phys. Lett.,2004,84(2):167-169.
[9] Emery S B,Hubbley J L,Darling M A,et al. Chemical factors for chemical-mechanical and electrochemical-mechanical planarization of silver examined using potentiodynamic and impedance measurements [J].Materials Chemistry and Physics,2005,89(23):345-353.
[10] Auch M D J,Soo O K,Ewald G,et al. Ultra-thin glass for flexible OL ED application [J].Thin Solid Films,2002,417(122):47-50.
[11] Plichta A,Weber A,Habeck A,et al. Ultra-thin flexible glass substrate [J].Materials Research Society Symposium Proceedings,2003,769: 273-282.
[12] Ong Kian Soo,Hu Jianqiao,Roshan S,et al. Flexible polymer light emitting devices using polymer-rein-forced ultrathin glass [J].Thin Solid Films,2005,477(1):32-37.
[13] Gu G,Burrows P E,et al. Vacuumdeposited nonpolymeric flexible organic light-emitting devices [J].Opt. Thin Solid Films,2002,417: 47-50.
[14] Park S K,Han J I,Moon D G,et al. Mechanical stability of externally deformed indium-tin-oxide films on polymer substrates [J].Jpn. J. Appl. Phys.,2003,42: 624-629.
[15] Bender M,Seelig W,Daube C,et al. Dependence of oxygen flow on optical and electrical properties of DC-magnetron sputtered ITO films [J].Thin Solid Films,1998,326(1-2):72-77.
[16] Lewis J,Grego S,Chalamala B,et al. Highly flexible transparent electrodes for organic light-emitting diode-based displays [J].Appl. Phys. Lett.,2004,85(16):3450-3452.
[17] Erlat A G,Schaepkens M,Kim T W,et al. Ultra-high barrier coatings on polymer substrates for flexible optoelectronics: water vapor transport and measurement systems [C].in 47th Annu. Technical Conf. Proc. Soc.Vacuum Coaters,2004,654-663.
[18] Gnade B. Dept. Mat. Sci.,[M].Univ. North Texas,Denton,2003.
[19] Sugimoto A,Ochi H,Fujimura S,et al. Flexible OLED displays using plastic substrates [J].IEEE Journal of Selected Topics In Quantum Electronics,2004,10(1):107-114.
[20] Lueder E. Passive and active matrix liquid crystal displays with plastic substrates [J].Electrochem. Soc. Proc.,1998,98(22):336-354.
[21] Kim H,Kim K H,Koo H M,et al. Passivation properties of inorganic films for flexible OLEDs(F-OLED)[C].Proc. Soc. Inform. Display Symp.,Dig. Tech. Papers,2003,34: 554-557.
[22] Kim K H,Kim H,Koo H M,et al. Permeation properties of inorganic thin-film and its application to PM-OLED using electron beam evaporation system [C].Proc. Soc. Inform. Display Symp. Dig. Tech. Papers,2003,34:563-565.
[23] Yamada K,amano T,Mori T,et al. Proc. of the 7th International Conference on Properties and Applications of Dielectric Materials [M].2003,1-5.
[24] Bijnens W,Manca J,Wu T D,et,al. Imaging of the ageing on organic electroluminescent diodes,under different atmospheres by impedance spectroscopy,scanning electron microscopy and SIMS depth profiling analysis [J].Synth. Met.. 1996,83(3):261-265.
[25] da Silva Sobrinho A S,Latreche M,Czeremuszkin G,et al. Transparent barrier coatings on polgethylene terephthalate by single-and dual-frequency flama-enhanced chemical vapor deposition [J].J. Vac. Sci. Technol. A,1998,16(6):3190-3198.