摘要:
A pillar structure for a substrate is provided. The pillar structure may have one or more tiers, where each tier may have a conical shape or a spherical shape. In an embodiment, the pillar structure is used in a bump-on-trace (BOT) configuration. The pillar structures may have circular shape or an elongated shape in a plan view. The substrate may be coupled to another substrate. In an embodiment, the another substrate may have raised conductive traces onto which the pillar structure may be coupled.
摘要:
A method includes performing a laser grooving to remove a dielectric material in a wafer to form a trench, wherein the trench extends from a top surface of the wafer to stop at an intermediate level between the top surface and a bottom surface of the wafer. The trench is in a scribe line between two neighboring chips in the wafer. A polymer is filled into the trench and then cured. After the step of curing the polymer, a die saw is performed to separate the two neighboring chips, wherein a kerf line of the die saw cuts through a portion of the polymer filled in the trench.
摘要:
A device with through-silicon via (TSV) and a method of forming the same includes the formation of an opening in a silicon substrate, the formation of a first insulation layer on the sidewalls and bottom of the opening, the formation of a second insulation layer on the sidewalls and bottom of the opening. A first interface between the first insulation layer and the silicon substrate has an interface roughness with a peak-to-valley height less than 5 nm. A second interface between the second insulation layer and the conductive layer has an interface roughness with a peak-to-valley height less than 5 nm.
摘要:
A semiconductor structure includes a substrate and a conductive carrier-tunneling layer over and contacting the substrate. The conductive carrier-tunneling layer includes first group-III nitride (III-nitride) layers having a first bandgap, wherein the first III-nitride layers have a thickness less than about 5 nm; and second III-nitride layers having a second bandgap lower than the first bandgap, wherein the first III-nitride layers and the second III-nitride layers are stacked in an alternating pattern. The semiconductor structure is free from a III-nitride layer between the substrate and the conductive carrier-tunneling layer. The semiconductor structure further includes an active layer over the conductive carrier-tunneling layer.
摘要:
A method of forming a semiconductor structure includes providing a substrate; forming a buffer/nucleation layer over the substrate; forming a group-III nitride (III-nitride) layer over the buffer/nucleation layer; and subjecting the III-nitride layer to a nitridation. The step of forming the III-nitride layer comprises metal organic chemical vapor deposition.
摘要:
A system and method for connecting semiconductor dies is provided. An embodiment comprises connecting a first semiconductor die with a first width to a second semiconductor die with a larger second width and that is still connected to a semiconductor wafer. The first semiconductor die is encapsulated after it is connected, and the encapsulant and first semiconductor die are thinned to expose a through substrate via within the first semiconductor die. The second semiconductor die is singulated from the semiconductor wafer, and the combined first semiconductor die and second semiconductor die are then connected to another substrate.
摘要:
The present disclosure relates to a method for fast and precise alignment and mounting of a top die onto an interposer wafer. The method is performed by applying a hydrophobic self assembled monolayer to a carrier wafer in a pattern defining a top die placement region correlating to an arrangement of a top die on an interposer wafer. A liquid is provided into the top die placement region and a top die is placed into contact with the liquid. The surface tension of the liquid automatically aligns the top die by generating a force causing the top die to overlap with the top die placement region. The liquid is then eliminated and the top die is affixed to the carrier wafer. The carrier wafer is bonded to the interposer wafer, bringing the top die into contact with an interposer.
摘要:
A method comprises attaching a first side of an interposer on a carrier wafer. The first side of the interposer comprises a plurality of bumps. The carrier wafer comprises a plurality of cavities formed in the carrier wafer. Each bump on the first side of the interposer can fit into its corresponding cavity on the carrier wafer. Subsequently, the method comprises attaching a semiconductor die on the second side of the interposer to form a wafer stack, detaching the wafer stack from the carrier wafer and attaching the wafer stack to a substrate.
摘要:
A method of forming a semiconductor structure includes providing a substrate; forming a low-k dielectric layer over the substrate; embedding a conductive wiring into the low-k dielectric layer; and thermal soaking the conductive wiring in a carbon-containing silane-based chemical to form a barrier layer on the conductive wiring. A lining barrier layer is formed in the opening for embedding the conductive wiring. The lining barrier layer may comprise same materials as the barrier layer, and the lining barrier layer may be recessed before forming the barrier layer and may contain a metal that can be silicided.
摘要:
A system and method for manufacturing an LED is provided. A preferred embodiment includes a substrate with a distributed Bragg reflector formed over the substrate. A photonic crystal layer is formed over the distributed Bragg reflector to collimate the light that impinges upon the distributed Bragg reflector, thereby increasing the efficiency of the distributed Bragg reflector. A first contact layer, an active layer, and a second contact layer are preferably either formed over the photonic crystal layer or alternatively attached to the photonic crystal layer.