Review of Organic/Inorganic Thin Film Encapsulation by Atomic Layer Deposition for a Flexible OLED Display

Lee, Seung Hwan; Han, Ju Hwan; Lee, Seong Hyeon; Baek, Geon Ho; Park, Jin‐Seong

doi:10.1007/s11837-018-3150-3

Cited by 78 publications

(44 citation statements)

References 90 publications

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“…The metal promotes the injection of electrons inside the OLED device. The last procedure is the OLED device encapsulation to maintain the intrinsic chemical properties of all organic layers used and to avoid the degradation caused by moisture, oxygen and ultraviolet rays from ambient 27 . In the OLED device encapsulated, it is possible to obtain several polarizations with stable performance (maintaining the same values for: electrical current, luminance and threshold voltage).…”

Section: Structure Of Oled Devicementioning

confidence: 99%

Comparison of different organic solvents used in the luminescent material for OLED devices

Santos

Ono

Onmori

et al. 2021

RBAV

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In this work, organic light-emitting diode (OLED) devices were mounted using the structure: glass (as substrate)/indium tin oxide (ITO) (as anode)/poly(3,4-ethylenedioxythiophene) doped with poly(styrenesulfonate) (PEDOT:PSS) (as hole transport layer)/poly[9,9-dioctifluorene-alt-bis-tienilene(benzotiadiazole)] (PFTB) (as luminescent material)/aluminum-doped zinc oxide (AZO) (as electron transport layer)/aluminum (as cathode). The PFTB was synthetized at laboratory and diluted in different organic solvents as chloroform and trichlorobenzene. The I-V curves of OLED devices showed that the trichlorobenzene used to dillute the PFTB improved the performance for OLED devices promoting the highest electrical current of ≈50 mA and the lowest range of thresold voltage from ≈2.5 to 5 volts, while the device OLEDs mounted with PFTB dilutted in chloroform presented maximum electrical current of ≈23 mA and range of thresold voltage from ≈5 to 8 volts. A hypothesis that explain these results can be attributed to the boiling point of the organic solvent of trichlorobenzene (≈214.4ºC) to be higher than the one of the chloroform (≈61.1ºC), favoring better rearrangement of the polymer chains of PFTB and interfaces between thin films PFTB/PEDOT:PSS and PFTB/AZO improving the injection of charges (holes and electrons) inside the OLEDs devices.

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Section: Structure Of Oled Devicementioning

confidence: 99%

Comparison of different organic solvents used in the luminescent material for OLED devices

Santos

Ono

Onmori

et al. 2021

RBAV

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“…It is suggested that a hybrid structure with a stress‐release organic buffer layer can significantly improve the mechanical strength against bending. In addition, the hybrid structure enhances the barrier capability toward moisture permeation 9 …”

Section: Atomic Layer Deposition For Large Areamentioning

confidence: 99%

Realizing Thin‐Film Encapsulation's Benefits for Large‐Scale OLED Panels

Chen¹

2021

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“…[75][76][77][78] At present, the preparation of inorganic thermoelectric materials by ALD, including Bi 2 Te 3 , Sb 2 Te 3 , Bi 2 Se 3 , ZnO and TiO 2 , has been reported in the literature. [79][80][81][82] Because the ALD process can be conducted under steady voltage and low temperature, there are fewer restrictions on the substrate, and this technique may be highly competitive in the field of flexible material preparation [83][84][85] and in the incorporation of inorganic thermoelectric materials into textile materials to expand their use in wearable flexible thermoelectric materials. 86 Molecular layer deposition (MLD) is another technique similar to ALD that uses sequential, self-limiting reactions to deposit thin films in molecular units.…”

Section: Materials Advances Reviewmentioning

confidence: 99%

Recent advances, design guidelines, and prospects of flexible organic/inorganic thermoelectric composites

et al. 2020

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Review of Organic/Inorganic Thin Film Encapsulation by Atomic Layer Deposition for a Flexible OLED Display

Cited by 78 publications

References 90 publications

Comparison of different organic solvents used in the luminescent material for OLED devices

Comparison of different organic solvents used in the luminescent material for OLED devices

Realizing Thin‐Film Encapsulation's Benefits for Large‐Scale OLED Panels

Recent advances, design guidelines, and prospects of flexible organic/inorganic thermoelectric composites

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