Trenches are opened from a top surface of a production wafer that extend down through scribe areas to a depth that is only partially through a semiconductor substrate. Prior to performing a bumping process, a first handle is attached to the top surface of the production wafer. A back surface of the semiconductor substrate is then thinned to reach the trenches and form a wafer level chip scale package at each integrated circuit location delimited by the trenches. A second handle is then attached to a bottom surface of the thinned semiconductor substrate, and the first handle is removed to expose underbump metallization pads at the top surface. The bumping process is then performed to form a solder ball at each of the exposed underbump metallization pads.

A display device includes a substrate, a first metal layer on the substrate, a first barrier insulating layer on the first metal layer, an etching control layer on the first barrier insulating layer, a first contact hole passing through the substrate, the first barrier insulating layer, and the etching control layer, a second barrier insulating layer on the etching control layer and including a second contact hole, a fan-out line on the second barrier insulating layer and included in a second metal layer, a pad part inserted into the second contact hole and included in the second metal layer, the pad part integral with the fan-out line, a display layer on the fan-out line, and a flexible film under the substrate and inserted into the first contact hole to be electrically connected to the pad part. The first metal layer includes an etching mark adjacent to the first contact hole.

A display panel, a manufacturing method thereof, and a display device are disclosed. The display panel includes: a base substrate, provided with a terminal 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.

A method of forming a semiconductor structure includes providing a semiconductor wafer including a plurality of semiconductor dies, providing a polymerized material layer, attaching the polymerized material layer to the semiconductor wafer such that the polymerized material layer is polymerized prior to the step of attaching the polymerized material layer to the semiconductor wafer, applying and patterning an etch mask layer over the polymerized material layer, such that openings are formed through the etch mask layer, etching portions of the polymerized material layer that are proximal to the openings through the etch mask layer by applying an etchant into the openings through the etch mask layer in an etch process, and removing the etch mask layer selective to the polymerized material layer. Alternatively, a patterned polymerized material layer may be transferred from a transfer substrate to the semiconductor wafer.

A method of forming a semiconductor structure includes providing a semiconductor wafer including a plurality of semiconductor dies, providing a polymerized material layer, attaching the polymerized material layer to the semiconductor wafer such that the polymerized material layer is polymerized prior to the step of attaching the polymerized material layer to the semiconductor wafer, applying and patterning an etch mask layer over the polymerized material layer, such that openings are formed through the etch mask layer, etching portions of the polymerized material layer that are proximal to the openings through the etch mask layer by applying an etchant into the openings through the etch mask layer in an etch process, and removing the etch mask layer selective to the polymerized material layer. Alternatively, a patterned polymerized material layer may be transferred from a transfer substrate to the semiconductor wafer.

Semiconductor devices, integrated circuits and methods of forming the same are provided. In one embodiment, a method includes depositing a first dielectric layer over a metal pad disposed over a workpiece, forming a first opening in the first dielectric layer to expose a portion of the metal pad, after the forming of the first opening, forming a second dielectric layer over the exposed portion of the metal pad, depositing a first polymeric material over the second dielectric layer, forming a second opening through the first polymeric material and the second dielectric layer to expose the metal pad, and forming a bump feature over the exposed metal pad.

A method of forming a semiconductor structure includes providing a semiconductor wafer including a plurality of semiconductor dies, providing a polymerized material layer, attaching the polymerized material layer to the semiconductor wafer such that the polymerized material layer is polymerized prior to the step of attaching the polymerized material layer to the semiconductor wafer, applying and patterning an etch mask layer over the polymerized material layer, such that openings are formed through the etch mask layer, etching portions of the polymerized material layer that are proximal to the openings through the etch mask layer by applying an etchant into the openings through the etch mask layer in an etch process, and removing the etch mask layer selective to the polymerized material layer. Alternatively, a patterned polymerized material layer may be transferred from a transfer substrate to the semiconductor wafer.

A manufacturing method for a semiconductor device includes: obtaining a pre-processed semiconductor structure, wherein the pre-processed semiconductor structure comprises a metal layer (103) having a first exposed surface (1032), and the first exposed surface (1032) of the metal layer has a protrusion portion (1031); arranging a protective layer (104) on the first exposed surface (1032) of the metal layer, wherein the protective layer (104) at least covers part of the metal layer (103) that excludes the protrusion portion (1031); removing the protrusion portion (1031) to form on the metal layer (103) a second exposed surface (1033) of the metal layer (103); and forming a dielectric layer (105) on an area where the first exposed surface (1032) is located, wherein the dielectric layer (105) completely covers the area where the first exposed surface (1032) is located.

The present application provides a semiconductor device. The semiconductor device includes a bonding pad disposed over a semiconductor substrate; a first spacer disposed over a top surface of the bonding pad; a second spacer disposed over a sidewall of the bonding pad; a dielectric layer between the bonding pad and the semiconductor substrate. The dielectric layer includes silicon-rich oxide; and a conductive bump disposed over the first passivation layer. The conductive bump is electrically connected to a source/drain (S/D) region in the semiconductor substrate through the bonding pad.

A method of forming a semiconductor structure includes providing a semiconductor wafer including a plurality of semiconductor dies, providing a polymerized material layer, attaching the polymerized material layer to the semiconductor wafer such that the polymerized material layer is polymerized prior to the step of attaching the polymerized material layer to the semiconductor wafer, applying and patterning an etch mask layer over the polymerized material layer, such that openings are formed through the etch mask layer, etching portions of the polymerized material layer that are proximal to the openings through the etch mask layer by applying an etchant into the openings through the etch mask layer in an etch process, and removing the etch mask layer selective to the polymerized material layer. Alternatively, a patterned polymerized material layer may be transferred from a transfer substrate to the semiconductor wafer.