Embodiments are directed to a method of forming a semiconductor chip package and resulting structures having an annular PSPI region formed under a BLM pad. An annular region is formed under a barrier layer metallurgy (BLM) pad. The annular region includes a photosensitive polyimide (PSPI). A conductive pedestal is formed on a surface of the BLM pad and a solder bump is formed on a surface of the conductive pedestal. The annular PSPI region reduces wafer warpage and ULK peeling stress.

A method includes forming a conductive pad over an interconnect structure of a wafer, forming a capping layer over the conductive pad, forming a dielectric layer covering the capping layer, and etching the dielectric layer to form an opening in the dielectric layer. The capping layer is exposed to the opening. A wet-cleaning process is then performed on the wafer. During the wet-cleaning process, a top surface of the capping layer is exposed to a chemical solution used for performing the wet-cleaning process. The method further includes depositing a conductive diffusion barrier extending into the opening, and depositing a conductive material over the conductive diffusion barrier.

A display backplane assembly, a light-emitting diode (LED) display module and a device, and related methods for manufacturing the same are provided in the disclosure. The display backplane assembly includes a display backplane and a planarization layer. The display backplane has a first surface, and electrode connecting pads are disposed on the first surface. The planarization layer is stacked on the first surface and defines multiple accommodating holes extending in a thickness direction of the planarization layer. The multiple accommodating holes correspond to the electrode connection pads. Each of the multiple accommodating holes includes a first hole and a second hole. A bonding material is filled in the first hole and in contact with the electrode connection pad. An adhesive is filled in the second hole.

A substrate wafer arrangement includes a substrate layer having a first main side and a second main side opposite the first main side, the first main side being a front-side and the second main side being a back-side, the substrate layer further having a plurality of semiconductor chips. A polymer structure arranged between the plurality of semiconductor chips extends at least from the front-side of the substrate layer to the back-side of the substrate layer and protrudes from a back-side surface of the substrate layer. The polymer structure separates a plurality of insular islands of conductive material, each insular island corresponding to a respective semiconductor chip of the plurality of semiconductor chips. Semiconductor devices produced from the substrate wafer arrangement are also described.

A display backboard and a manufacturing method thereof, and a display device are provided. The display backboard includes: a driving substrate; a plurality of driving electrodes on the driving substrate; and a plurality of connection structures respectively on the plurality of driving electrodes. The connection structure includes: at least one conductive component on the driving electrode; and a restriction component on a side of the driving electrodes provided with the at least one conductive component and in at least a part of a peripheral region of the at least one conductive component. The restriction component protrudes from the driving electrode and has a first height in a direction perpendicular to the driving substrate.

A semiconductor packaging structure includes a die including a bond pad and a first metal layer structure disposed on the die, the first metal layer structure having a first width, the first metal layer structure including a first metal layer, the first metal layer electrically coupled to the bond pad. The semiconductor packaging structure also includes a first photosensitive material around sides of the first metal layer structure and a second metal layer structure disposed over the first metal layer structure and over a portion of the first photosensitive material, the second metal layer structure electrically coupled to the first metal layer structure, the second metal layer structure having a second width, where the second width is greater than the first width. Additionally, the semiconductor packaging structure includes a second photosensitive material around sides of the second metal layer structure.

A pad electrode is formed in an uppermost wiring layer of a multilayer wiring layer formed on a semiconductor substrate. A dielectric film is formed to cover the pad electrode. An opening portion is formed in the dielectric film so as to reach the pad electrode. In the opening portion, a conductive film that is a part of a conductive layer is electrically connected to the pad electrode. On a side surface of the conductive film, an oxide layer in which a material contained in the conductive film is oxidized is formed. A width of the oxide layer is 200 nm or more.

A display backboard and a manufacturing method thereof, and a display device are provided. The display backboard includes: a driving substrate; a plurality of driving electrodes on the driving substrate; and a plurality of connection structures respectively on the plurality of driving electrodes. The connection structure includes: at least one conductive component on the driving electrode; and a restriction component on a side of the driving electrodes provided with the at least one conductive component and in at least a part of a peripheral region of the at least one conductive component. The restriction component protrudes from the driving electrode and has a first height in a direction perpendicular to the driving substrate.

A method includes forming a conductive pad over an interconnect structure of a wafer, forming a capping layer over the conductive pad, forming a dielectric layer covering the capping layer, and etching the dielectric layer to form an opening in the dielectric layer. The capping layer is exposed to the opening. A wet-cleaning process is then performed on the wafer. During the wet-cleaning process, a top surface of the capping layer is exposed to a chemical solution used for performing the wet-cleaning process. The method further includes depositing a conductive diffusion barrier extending into the opening, and depositing a conductive material over the conductive diffusion barrier.

A substrate structure, a semiconductor package structure including the same and a method for manufacturing the same are provided. The substrate structure includes a first passivation layer, a first circuit layer and a first protection layer. The first passivation layer has a first surface and a second surface opposite to the first surface. The first circuit layer has an outer lateral surface. A first portion of the first circuit layer is disposed in the first passivation layer. The first protection layer is disposed on a second portion of the first circuit layer and exposed from the first surface of the first passivation layer. The outer lateral surface of the first circuit layer is covered by the first passivation layer or the first protection layer.