A method for attaching a semiconductor die to a substrate includes providing a substrate that includes an attachment layer at a surface of the substrate. The attachment layer is covered by a protective flash plating layer. The protective flash plating layer has a reflow temperature less than or equal to a reflow temperature of the attachment layer. The method further includes preheating the substrate to a temperature greater than or equal to a reflow temperature of the attachment layer, attaching a semiconductor die to the attachment layer, and cooling the substrate and semiconductor die.

A bonding pad for an integrated circuit is formed by a stack of bonding pad layers. A lower bonding pad layer is supported by a bonding pad support layer. A passivation layer extends over the lower bonding pad layer and includes a passivation opening at a portion of an upper surface of the lower bonding pad layer. An upper bonding pad layer rests on said passivation layer and in the passivation opening in contact with the lower bonding pad layer.

A display panel, a manufacturing method thereof, and a display device are disclosed. The display panel includes: a base substrate, provided with a terminal and a terminal protection layer pattern; the terminal protection layer pattern includes a first shielding region and a first opening region, an orthographic projection of the first shielding region on the base substrate and an orthographic projection of the terminal on the base substrate have an overlapping region, the overlapping region is located at an edge of the orthographic projection of the terminal on the base substrate, and an orthographic projection of the first opening region on the base substrate is located in the orthographic projection of the terminal on the base substrate.

Embedded die packaging for semiconductor devices and methods of fabrication wherein conductive vias are provided to interconnect contact areas on the die and package interconnect areas. Before embedding, a protective masking layer is provided selectively on regions of the electrical contact areas where vias are to be formed by laser drilling. The material of the protective masking layer is selected to protect against over-drilling and/or to control absorption properties of surface of the pad metal to reduce absorption of laser energy during laser drilling of micro-vias, thereby mitigating physical damage, overheating or other potential damage to the semiconductor device. The masking layer may be resistant to surface treatment of other regions of the electrical contact areas, e.g. to increase surface roughness to promote adhesion of package dielectric.

A redistribution layer for an integrated circuit is made by forming a conductive interconnection layer; forming a conductive body in electrical contract with the interconnection layer; and covering the conductive body with a first coating layer having a thickness less than 100 nm. The first coating layer is configured to provide a protection against oxidation and/or corrosion of the conductive body. To carry out an electrical test of the integrated circuit, a testing probe locally perforates the first coating layer until the conductive body is electrically contacted by the testing probe.

A semiconductor structure is provided. The semiconductor structure includes a first semiconductor device. The semiconductor structure includes a first semiconductor device and a second semiconductor device. The first semiconductor device includes a first oxide layer formed below the a first substrate, a first bonding layer formed below the first oxide layer, and a first bonding via formed through the first bonding layer and the first oxide layer. The second semiconductor device includes a second oxide layer formed over a second substrate, a second bonding layer formed over the second oxide layer, and a second bonding via formed through the second bonding layer and the second oxide layer. The semiconductor structure also includes a bonding structure between the first substrate and the second substrate, and the bonding structure includes the first bonding via bonded to the second bonding via.

Semiconductor devices including one or more interfacing segments patterned within an outer protective layer and associated systems and methods are disclosed herein. The one or more interfacing segments may provide attachment interfaces/surfaces for connection pads. The one or more interfacing segments or a portion thereof may remain uncovered or exposed and provide warpage control for the corresponding semiconductor device.

A device comprises a first chip comprising a first connection pad embedded in a first dielectric layer and a first bonding pad embedded in the first dielectric layer, wherein the first bonding pad comprises a first portion and a second portion, the second portion being in contact with the first connection pad and a second chip comprising a second bonding pad embedded in a second dielectric layer of the second chip, wherein the first chip and the second chip are face-to-face bonded together through the first bonding pad the second bonding pad.

A semiconductor device comprises a metallization layer, a passivation layer disposed above the metallization layer, a copper redistribution layer disposed on the passivation layer, a second passivation layer disposed on the copper redistribution layer, and a polyimide layer disposed over the second passivation layer. The polyimide layer and the second passivation layer include a continuous gap there-through that exposes a portion of the copper redistribution layer.

A back end of line (BEOL) structure for an integrated circuit chip includes a last metal structure providing a bonding pad. A passivation structure over the bonding pad includes a first opening extending exposing an upper surface of the bonding pad. A conformal nitride layer extends over the passivation structure and is placed in contact with the upper surface of the bonding pad. An insulator material layer covers the conformal nitride layer and includes a second opening that extends through both the insulator material layer and the conformal nitride layer. A foot portion of the conformal nitride layer on the upper surface of the bonding pad is self-aligned with the second opening.