A metal sintered bonding body bonds a substrate and a die. In the metal sintered bonding body, at least a center part and corner part of a rectangular region where the metal sintered bonding body faces the die have a low-porosity region whose porosity is lower than an average porosity of the rectangular region. The low-porosity region is located within a strip-shaped region whose central lines are diagonal lines of the rectangular region.

A metal sintered bonding body bonds a substrate and a die. In the metal sintered bonding body, at least a center part and corner part of a rectangular region where the metal sintered bonding body faces the die have a low-porosity region whose porosity is lower than an average porosity of the rectangular region. The low-porosity region is located within a strip-shaped region whose central lines are diagonal lines of the rectangular region.

A method for producing an at least partially housed semiconductor wafer is provided. This method comprises the steps of providing a semiconductor wafer which has components on its upper face and providing a cover disc, the surface of which at least partially covers the semiconductor wafer. After functionalizing the surface of the cover disc to form a functional layer, the upper face of the semiconductor wafer and the surface of the cover disc are joined together, followed by activating the functional layer using simultaneous chemical bonding of the semiconductor wafer and the cover disc such that the cover disc forms a housing for the semiconductor wafer.

There is provided a bonding apparatus for bonding substrates together, which includes: a first holding part configured to adsorptively hold a first substrate by vacuum-drawing the first substrate on a lower surface of the first substrate; a second holding part provided below the first holding part and configured to adsorptively hold a second substrate by vacuum-drawing the second substrate on an upper surface of the second substrate; a pressing member provided in the first holding part and configured to press a central portion of the first substrate; and a plurality of substrate detection parts provided in the first holding part and configured to detect a detachment of the first substrate from the first holding part.

Devices and techniques include process steps for preparing various microelectronic components for bonding, such as for direct bonding without adhesive. The processes include providing a first bonding surface on a first surface of the microelectronic components, bonding a handle to the prepared first bonding surface, and processing a second surface of the microelectronic components while the microelectronic components are gripped at the handle. In some embodiments, the processes include removing the handle from the first bonding surface, and directly bonding the microelectronic components at the first bonding surface to other microelectronic components.

A method for producing an at least partially housed semiconductor wafer (16) is provided. This method comprises the steps of providing a semiconductor wafer (16) which has components (28) on its upper face (20) and providing a cover disc (2), the surface (4) of which at least partially covers the semiconductor wafer (16). After functionalizing the surface (4) of the cover disc (2) to form a functional layer (10), the upper face (20) of the semiconductor wafer (16) and the surface (4) of the cover disc (2) are joined together, followed by activating the functional layer (10) using simultaneous chemical bonding of the semiconductor wafer (16) and the cover disc (2) such that the cover disc (2) forms a housing for the semiconductor wafer (16).

The disclosed technology generally relates to integrating semiconductor dies and more particularly to bonding semiconductor substrates. In an aspect, a method of bonding semiconductor substrates includes providing a first substrate and a second substrate. Each of the first substrate and the second substrate comprises a dielectric bonding layer comprising one or more a silicon carbon oxide (SiCO) layer, a silicon carbon nitride (SiCN) layer or a silicon carbide (SiC) layer. The method additionally includes, prior to bonding the first and second substrates, pre-treating each of the dielectric bonding layer of the first substrate and the dielectric bonding layer of the second substrate. Pre-treating includes a first plasma activation process in a plasma comprising an inert gas, a second plasma activation process in a plasma comprising oxygen, and a wet surface treatment including a water rinsing step or an exposure to a water-containing ambient. The method additionally includes bonding the first and the second substrates by contacting the dielectric bonding layer of the first substrate and the dielectric bonding layer of the second substrate to form a substrate assembly. The method further includes post-bond annealing the assembly.

A method of and system for adhesive bonding by a) providing a polymerizable adhesive composition on a surface of an element to be bonded to form an assembly; b) irradiating the assembly with radiation at a first wavelength capable of vulcanization of bonds in the polymerizable adhesive composition by activation of sulfur-containing compound with at least one selected from x-ray, e-beam, visible, or infrared light to thereby generate ultraviolet light in the polymerizable adhesive composition; and c) adhesively joining two or more components together by way of the polymerizable adhesive composition, and a curable polymer for use therein.

A method of and system for adhesive bonding by a) providing a polymerizable adhesive composition on a surface of an element to be bonded to form an assembly; b) irradiating the assembly with radiation at a first wavelength capable of vulcanization of bonds in the polymerizable adhesive composition by activation of sulfur-containing compound with at least one selected from x-ray, e-beam, visible, or infrared light to thereby generate ultraviolet light in the polymerizable adhesive composition; and c) adhesively joining two or more components together by way of the polymerizable adhesive composition, and a curable polymer for use therein.

There is provided a bonding apparatus for bonding substrates together, which includes: a first holding part configured to adsorptively hold a first substrate by vacuum-drawing the first substrate on a lower surface of the first substrate; a second holding part provided below the first holding part and configured to adsorptively hold a second substrate by vacuum-drawing the second substrate on an upper surface of the second substrate; a pressing member provided in the first holding part and configured to press a central portion of the first substrate; and a plurality of substrate detection parts provided in the first holding part and configured to detect a detachment of the first substrate from the first holding part.