The embodiment of the present application provides an array substrate, display panel and display device. The array substrate includes: base substrate; a first effective light emitting region layer located on the base substrate, where the first effective light emitting region layer includes a plurality of first effective light emitting region columns, and a plurality of second effective light emitting region column and third effective light emitting region column symmetrically arranged on both sides of each first effective light emitting region column, where at least one first effective light emitting region column includes a plurality of first effective light emitting regions arranged along a first direction, two second effective light emitting regions and two third effective light emitting regions are respectively arranged on two sides of at least one first effective light emitting region, and the two second effective light emitting regions are symmetric along a first straight line; and the two third effective light emitting regions are symmetrical along the first straight line, the first straight line extending along a second direction and passing through the center point of the first effective light emitting region, the second direction being perpendicular to the first direction.

A light-emitting device includes a first electrode, a light-emitting function pattern and a second electrode. The first electrode has at least one first depression portion. The light-emitting function pattern is disposed on the first electrode, the light-emitting function pattern covers at least the first depression portion(s), and a portion of the light-emitting function pattern covering a first depression portion is conformal to the first depression portion.

A display substrate and a manufacturing method thereof. The display substrate includes a display region, a barrier region and an opening region, the barrier region is located between the display region and the opening region. The barrier region includes a first barrier wall, a first barrier wall, and a second barrier wall which are sequentially arranged from the display region to the opening region. The first barrier wall includes a first metal layer structure, at least one lateral surface of the first metal layer structure surrounding the opening region is provided with a notch; the first intercepting wall includes a first insulating layer structure; the second barrier wall includes a second metal layer structure and a first stacked structure, at least one lateral surface of the second metal layer structure surrounding the opening region is provided with a notch.

A display substrate and a manufacturing method thereof. The display substrate includes a display region, a barrier region and an opening region, the barrier region is located between the display region and the opening region. The barrier region includes a first barrier wall, a first barrier wall, and a second barrier wall which are sequentially arranged from the display region to the opening region. The first barrier wall includes a first metal layer structure, at least one lateral surface of the first metal layer structure surrounding the opening region is provided with a notch; the first intercepting wall includes a first insulating layer structure; the second barrier wall includes a second metal layer structure and a first stacked structure, at least one lateral surface of the second metal layer structure surrounding the opening region is provided with a notch.

A light emitting display device includes an organic layer positioned on a substrate and including an anode connection opening, an anode positioned on the organic layer and having electrical connection through the anode connection opening, a black pixel defining layer including an anode exposing opening exposing the anode and including a black-colored organic material, a cathode positioned on the black pixel defining layer and the anode, and an encapsulation layer covering the cathode. The anode includes an anode center portion overlapping the anode exposing opening and having a triple layer structure, and an anode peripheral portion extending from the anode center portion and including a transparent conductive material. The triple-layer structure includes a lower layer and an upper layer that include a transparent conductive material, and a middle layer that includes a metal material and reflects light.

A light emitting display device includes an organic layer positioned on a substrate and including an anode connection opening, an anode positioned on the organic layer and having electrical connection through the anode connection opening, a black pixel defining layer including an anode exposing opening exposing the anode and including a black-colored organic material, a cathode positioned on the black pixel defining layer and the anode, and an encapsulation layer covering the cathode. The anode includes an anode center portion overlapping the anode exposing opening and having a triple layer structure, and an anode peripheral portion extending from the anode center portion and including a transparent conductive material. The triple-layer structure includes a lower layer and an upper layer that include a transparent conductive material, and a middle layer that includes a metal material and reflects light.

The present application relates to an OLED light-emitting unit for use in a top-emission OLED substrate, which includes an anode, a cathode, and an organic functional layer arranged between the anode and the cathode. The anode includes a first metal layer and a second metal layer arranged in sequence, a separation layer is arranged between the first metal layer and the second metal layer, and a thickness of the second metal layer is within a preset threshold range such that metal atoms of the second metal layer are capable of being thermally agglomerated and rearranged under a preset condition to form a concave-convex structure on a surface of the second metal layer.

A light-emitting element includes an anode, an HTL, an EML, an ETL, and a cathode layered in this order, the HTL includes at least one protruding portion protruding in a layering direction, and an IL overlapping the protruding portion in a plan view is provided between the protruding portion and the EML.

A display device includes: a first transistor; an insulating layer disposed on the first transistor; a first pixel electrode which is connected to the first transistor and disposed on the insulating layer and defines a first opening exposing the insulating layer therein; a pixel defining layer disposed on the first pixel electrode and defining a plurality of second openings exposing the first pixel electrode therein; and a first light emitting layer disposed on the pixel defining layer to fill the plurality of second openings.

The present disclosure provides a display panel and a display device. The display panel includes: a base substrate, on which a first metal layer and a second metal layer are stacked; and organic light emitting diode devices on a side, away from the base substrate, of the first metal layer. The first metal layer includes a power signal line. The power signal line is electrically connected with the second electrode layer in a peripheral area. Each organic light-emitting diode devices- includes a first electrode layer, a light emitting layer and a second electrode layer which are sequentially arranged on the base substrate. The second power signal line includes traces in a first direction and traces in a second direction, and orthographic projections of the traces in the first direction on the base substrate are intersected with orthographic projections of the traces in the second direction on the base substrate.