A process and resultant article of manufacture made by such process comprises forming through vias needed to connect a bottom device layer in a bottom silicon wafer to the one in the top device layer in a top silicon wafer comprising a silicon-on-insulator (SOI) wafer. Through vias are disposed in such a way that they extend from the middle of the line (MOL) interconnect of the top wafer to the buried oxide (BOX) layer of the SOI wafer with appropriate insulation provided to isolate them from the SOI device layer.

A manufacturing method of a combing bump structure is disclosed. In the manufacturing method, a semiconductor substrate is provided, a pad is formed on the semiconductor substrate, a conductive layer is formed on the pad, a solder bump is formed on the conductive layer, and at least two metal side walls are formed disposed along opposing laterals of the solder bump respectively.

An apparatus comprising a first substrate, a dam structure disposed on a first side of the first substrate, and an integrated circuit (IC) memory chip coupled to the first side of the first substrate by a plurality of first conductive members. A second substrate is coupled to a second side of the first substrate by a plurality of second conductive members. A lid coupled to the second substrate encloses the IC memory chip and the first substrate. A thermal interface material (TIM) is coupled between the lid and the dam structure.

An apparatus comprising a first substrate, a dam structure disposed on a first side of the first substrate, and an integrated circuit (IC) memory chip coupled to the first side of the first substrate by a plurality of first conductive members. A second substrate is coupled to a second side of the first substrate by a plurality of second conductive members. A lid coupled to the second substrate encloses the IC memory chip and the first substrate. A thermal interface material (TIM) is coupled between the lid and the dam structure.

A method for forming a nitride-based Schottky diode includes forming a nitride-based epitaxial layer on a front side of a nitride-based semiconductor body; forming a first dielectric layer on the nitride-based epitaxial layer; etching the first dielectric layer and the nitride-based epitaxial layer to the nitride-based semiconductor body to define an opening for an anode electrode of the nitride-based Schottky diode and to form an array of islands of the nitride-based epitaxial layer in the opening, the first dielectric layer having an end that is recessed from an end of the nitride-based epitaxial layer near the opening. In another embodiment, the first dielectric layer and the nitride-based epitaxial layer have a slant profile at a side facing the opening for the anode electrode.

A process and resultant article of manufacture made by such process comprises forming through vias needed to connect a bottom device layer in a bottom silicon wafer to the one in the top device layer in a top silicon wafer comprising a silicon-on-insulator (SOI) wafer. Through vias are disposed in such a way that they extend from the middle of the line (MOL) interconnect of the top wafer to the buried oxide (BOX) layer of the SOI wafer with appropriate insulation provided to isolate them from the SOI device layer.

Apparatuses and methods using a silicon on insulator (SOI) substrate are described. An example apparatus includes: a substrate including a first surface and a second surface opposite to the first surface; a circuit formed in the first surface; a first electrode through the substrate from the first surface to the second surface; and a first insulative film around the first electrode. The first electrode includes: a first portion formed in the substrate; and a second portion continuous to the first portion and protruding from the second surface. The first insulative film is formed between the first portion of the first electrode in the substrate and extending to a side surface of the second portion of the first electrode.

Methods and semiconductor devices for bonding a first semiconductor device to a second semiconductor device include forming metal pads including a textured microstructure having a columnar grain structure at substantially the same angular direction from the top surface to the bottom surface. The textured crystalline microstructures enables the use of low temperatures and low pressures to effect bonding of the metal pads. Also described are methods of packaging and semiconductor devices.

Methods and semiconductor devices for bonding a first semiconductor device to a second semiconductor device include forming metal pads including a textured microstructure having a columnar grain structure at substantially the same angular direction from the top surface to the bottom surface. The textured crystalline microstructures enables the use of low temperatures and low pressures to effect bonding of the metal pads. Also described are methods of packaging and semiconductor devices.

A combing bump structure includes a semiconductor substrate, a pad, a conductive layer, a solder bump and at least two metal side walls The pad is disposed on the semiconductor substrate. The conductive layer is disposed on the pad. The solder bump is disposed on the conductive layer. The at least two metal side walls are disposed along opposing outer side walls of the solder bump respectively.