Abstract: An organic light emitting diode display panel is disclosed, which comprises: a substrate having a light emitting region and a non-light emitting region, wherein a first electrode layer is disposed on the light emitting region, a pixel defining layer is disposed on the non-light emitting region, and the pixel defining layer has a plurality of concave structures; an organic layer disposed on the first electrode layer and the pixel defining layer; and a second electrode layer disposed on the organic layer; wherein the organic layer is discontinuous at the concave structures.

Abstract: An organic light emitting diode display panel is disclosed, which comprises: a substrate having a light emitting region and a non-light emitting region, wherein a first electrode layer is disposed on the light emitting region, a pixel defining layer is disposed on the non-light emitting region, and the pixel defining layer has a plurality of concave structures; an organic layer disposed on the first electrode layer and the pixel defining layer; and a second electrode layer disposed on the organic layer; wherein the organic layer is discontinuous at the concave structures.

Abstract: The disclosure provides an organic light-emitting device. The organic light-emitting device includes a substrate, and an organic light-emitting pixel array disposed on the substrate. The organic light-emitting pixel array includes a plurality of pixels. Each pixel includes a first sub-pixel and a second sub-pixel. Each sub-pixel includes a first electrode, an organic light-emitting element, a second electrode, and an optical path adjustment layer. The optical path adjustment layer is disposed between the first electrode and the second electrode. Particularly, the thickness of the optical path adjustment layer of the first sub-pixel is substantially equal to the thickness of the optical path adjustment layer of the second sub-pixel.

Abstract: An organic light emitting diode (OLED) display device and a manufacturing method thereof are provided. The OLED display device includes a first substrate, an organic light emitting element disposed on the first substrate, a first inorganic layer, and a second inorganic layer. The organic light emitting element includes a first electrode disposed on the first substrate, an organic light emitting layer disposed on the first electrode, and a second electrode disposed on the organic light emitting layer. The first inorganic layer covers the organic light emitting element, wherein the first inorganic layer has a first thickness. The second inorganic layer covers the first inorganic layer and covers the organic light emitting element, wherein the second inorganic layer has a second thickness larger than the first thickness, and the second inorganic layer has a consistency less than the consistency of the first inorganic layer.

Abstract: An organic light emitting diode, and a panel and a display using the same are disclosed. The organic light emitting diode of the present invention comprises: a reflecting layer; a resonance enhancing layer disposed on the reflecting layer; a first electrode disposed on the resonance enhancing layer, wherein the resonance enhancing layer is disposed between the reflecting layer and the first electrode; an organic layer disposed on the first electrode; and a second electrode disposed on the organic layer, wherein the organic layer is disposed between the first electrode and the second electrode.

Abstract: The disclosure provides an organic light-emitting device. The organic light-emitting device includes a substrate, and an organic light-emitting pixel array disposed on the substrate. The organic light-emitting pixel array includes a plurality of pixels. Each pixel includes a first sub-pixel and a second sub-pixel. Each sub-pixel includes a first electrode, an organic light-emitting element, a second electrode, and an optical path adjustment layer. The optical path adjustment layer is disposed between the first electrode and the second electrode. Particularly, the thickness of the optical path adjustment layer of the first sub-pixel is substantially equal to the thickness of the optical path adjustment layer of the second sub-pixel.

Abstract: An organic light emitting diode, and a panel and a display using the same are disclosed. The organic light emitting diode of the present invention comprises: a reflecting layer; a resonance enhancing layer disposed on the reflecting layer; a first electrode disposed on the resonance enhancing layer, wherein the resonance enhancing layer is disposed between the reflecting layer and the first electrode; an organic layer disposed on the first electrode; and a second electrode disposed on the organic layer, wherein the organic layer is disposed between the first electrode and the second electrode.

Abstract: The present invention discloses a conjugated compound containing a hydroindoloacridine structural element and its applications as a host material or a hole transport material in an organic electronic device. The general structure of the conjugated compound containing a hydroindoloacridine structural element is as follows: where R1˜R5 can be identical or different.

Abstract: The present invention discloses a bis-triphenylsilyl compound and its applications as a host material, electron transport material, or hole transport material in an organic electronic device. The general structure of the bis-triphenylsilyl compound is as follows: where G represents any atomic moiety or single bond of the functional group selected from the group consisting of the following: aryl group, cyclene group, and heterocyclic ring group; and R1˜R32 represent substituents on aryl groups.

Abstract: The invention provides a host material for organic light emitting diodes, having the general formula: wherein R1 is selected from a C1-8 alkyl group, each R2 is independently selected from a hydrogen or a C1-8 alkyl group, Ar is selected from a C5-14 aromatic or hetero aromatic group, R3 is selected from a C5-14 aromatic or hetero aromatic group, a C1-8 alkyl group, a C5-8 cycloalkyl group, a C1-8 fluoroalkyl group, or a C1-8 alkoxyl group, and n is an integer of 1-10. The host materials have a higher energy gap (greater than 4.0 eV), and high thermal stability.

Abstract: The present invention discloses a conjugated compound containing a hydroindoloacridine structural element and its applications as a host material or a hole transport material in an organic electronic device. The general structure of the conjugated compound containing a hydroindoloacridine structural element is as follows: where R1˜R5 can be identical or different.

Abstract: The present invention discloses a bis-triphenylsilyl compound and its applications as a host material, electron transport material, or hole transport material in an organic electronic device. The general structure of the bis-triphenylsilyl compound is as follows: where G represents any atomic moiety or single bond of the functional group selected from the group consisting of the following: aryl group, cyclene group, and heterocyclic ring group; and R1˜R32 represent substituents on aryl groups.

Abstract: The invention provides a host material for organic light emitting diodes, having the general formula: wherein R1 is selected from a C1-8 alkyl group, each R2 is independently selected from a hydrogen or a C1-8 alkyl group, Ar is selected from a C5-14 aromatic or hetero aromatic group, R3 is selected from a C5-14 aromatic or hetero aromatic group, a C1-8 alkyl group, a C5-8 cycloalkyl group, a C1-8 fluoroalkyl group, or a C1-8 alkoxyl group, and n is an integer of 1-10. The host materials have a higher energy gap (greater than 4.0 eV), and high thermal stability.