Co-Deposition of Rubrene doped Alq3 film Using Belt Source Evaporation Techniques for Large Size AMOLED. Hwang, C. H., Ju, S., & Park, M. H.
abstract   bibtex   
The belt source evaporation is for the large size AMOLED devices to re-sublimate the organic film deposited on the metal plate. Using the plane source, the PL spectrum of the doped organic film has been studied for the first time. The PL peak of the pure Alq3 film was 512nm and that of the pure Rubrene was 557nm. The PL peak of the 2% Rubrene doped Alq3 film was shifted to 536 ±2nm. The PL peak wavelength measured at the front surface of the film and at the back surface of the film was measured as nearly same as that the doping ratio maintains uniform within the film thickness. In conclusion, the doping control of the organic film becomes real using the belt type plate sublimation deposition.
@article{hwang_co-deposition_nodate,
	title = {Co-{Deposition} of {Rubrene} doped {Alq3} film {Using} {Belt} {Source} {Evaporation} {Techniques} for {Large} {Size} {AMOLED}},
	abstract = {The belt source evaporation is for the large size AMOLED devices to re-sublimate the organic film deposited on the metal plate. Using the plane source, the PL spectrum of the doped organic film has been studied for the first time. The PL peak of the pure Alq3 film was 512nm and that of the pure Rubrene was 557nm. The PL peak of the 2\% Rubrene doped Alq3 film was shifted to 536 ±2nm. The PL peak wavelength measured at the front surface of the film and at the back surface of the film was measured as nearly same as that the doping ratio maintains uniform within the film thickness. In conclusion, the doping control of the organic film becomes real using the belt type plate sublimation deposition.},
	language = {en},
	author = {Hwang, Chang Hun and Ju, Sung-Hoo and Park, Myung Hee},
	pages = {4}
}

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