The present disclosure is directed to a method for preparing a semiconductor apparatus having a plurality of bonded semiconductor devices formed by a fusion bonding technique and a method for preparing the same. The method includes the steps of forming a first semiconductor device having a first conductive portion, a first dielectric portion adjacent to the first conductive portion, and a depression at an upper surface of the first conductive portion; forming a second semiconductor device having a second conductive portion and a second dielectric portion adjacent to the second conductive portion; disposing the first semiconductor device and the second semiconductor device in a manner such that the first conductive portion faces the second conductive portion; and expanding at least one of the first conductive portion and the second conductive portion to fill the depression.

Methods for hybrid bonding include depositing and patterning a dielectric layer on a substrate to form openings in the dielectric layer, depositing a barrier layer over the dielectric layer and within a first portion of the openings, and depositing a conductive structure over the barrier layer and within a second portion of the openings not occupied by the barrier layer, at least a portion of the conductive structure in the second portion of the openings coupled or contacting electrical circuitry within the substrate. The conductive structure is polished to reveal portions of the barrier layer deposited over the dielectric layer and not in the second portion of the openings. Further, the barrier layer is polished with a selective polish to reveal a bonding surface on or at the dielectric layer.

The present disclosure is directed to method for preparing a semiconductor apparatus having a plurality of bonded semiconductor devices formed by a fusion bonding technique. The method includes operations of forming a first semiconductor device having a first conductive portion, a first dielectric portion adjacent to the first conductive portion, and a depression at an upper surface of the first conductive portion; forming a second semiconductor device having a second conductive portion and a second dielectric portion adjacent to the second conductive portion; disposing the first semiconductor device and the second semiconductor device in a manner such that the first conductive portion faces the second conductive portion; and expanding at least one of the first conductive portion and the second conductive portion to fill the depression.

A member for a solid-state image pickup device having a bonding plane with no gaps and a method for manufacturing the same are provided. The manufacturing method includes the steps of providing a first substrate provided with a photoelectric converter on its primary face and a first wiring structure, providing a second substrate provided with a part of a peripheral circuit on its primary face and a second wiring structure, and performing bonding so that the first substrate, the first wiring structure, the second wiring structure, and the second substrate are disposed in this order. In addition, at least one of an upper face of the first wiring structure and an upper face of the second wiring structure has a concave portion, and a conductive material forms a bottom face of the concave portion.

A semiconductor device includes a first substrate having an attaching surface on which first electrodes and a first insulating film are exposed, an insulating thin film that covers the attaching surface of the first substrate, and a second substrate which has an attaching surface on which second electrodes and a second insulating film are exposed and is attached to the first substrate in a state in which the attaching surface of the second substrate and the attaching surface of the first substrate are attached together sandwiching the insulating thin film therebetween, and the first electrodes and the second electrodes deform and break a part of the insulating thin film so as to be directly electrically connected to each other.

A member for a solid-state image pickup device having a bonding plane with no gaps and a method for manufacturing the same are provided. The manufacturing method includes the steps of providing a first substrate provided with a photoelectric converter on its primary face and a first wiring structure, providing a second substrate provided with a part of a peripheral circuit on its primary face and a second wiring structure, and performing bonding so that the first substrate, the first wiring structure, the second wiring structure, and the second substrate are disposed in this order. In addition, at least one of an upper face of the first wiring structure and an upper face of the second wiring structure has a concave portion, and a conductive material forms a bottom face of the concave portion.

A device includes a first semiconductor substrate and a second semiconductor substrate. A first insulating film is provided on a first face of the first semiconductor substrate. A first metal layer covers an inner surface of a first grove provided on the first insulating film. A first electrode is provided on the first metal layer and embedded in the first groove. The second semiconductor substrate has a second face facing the first face of the first semiconductor substrate. A second insulating film is provided on the second face of the second semiconductor substrate and is attached to the first insulating film. A second electrode is embedded in a second groove provided on the second insulating film and is connected to the first electrode. An end part of the first metal layer is recessed toward the first semiconductor substrate relative to a surface of the first insulating film.

The present technology relates to a semiconductor device, a manufacturing method, and a solid-state imaging device which are capable of suppressing a decrease in bonding strength and preventing a poor electrical connection or peeling when two substrates are bonded to each other. Provided is a semiconductor device, including: a first substrate including a first electrode including a metal; and a second substrate bonded to the first substrate and including a second electrode including a metal. An acute-angled concavo-convex portion is formed on a side surface of a groove in which the first electrode is formed and a side surface of a groove in which the second electrode metal-bonded to the first electrode is formed. The present technology can be, for example, applied to a solid-state imaging device such as a CMOS image sensor.

A semiconductor device includes a first substrate having an attaching surface on which first electrodes and a first insulating film are exposed, an insulating thin film that covers the attaching surface of the first substrate, and a second substrate which has an attaching surface on which second electrodes and a second insulating film are exposed and is attached to the first substrate in a state in which the attaching surface of the second substrate and the attaching surface of the first substrate are attached together sandwiching the insulating thin film therebetween, and the first electrodes and the second electrodes deform and break a part of the insulating thin film so as to be directly electrically connected to each other.

A member for a solid-state image pickup device having a bonding plane with no gaps and a method for manufacturing the same are provided. The manufacturing method includes the steps of providing a first substrate provided with a photoelectric converter on its primary face and a first wiring structure, providing a second substrate provided with a part of a peripheral circuit on its primary face and a second wiring structure, and performing bonding so that the first substrate, the first wiring structure, the second wiring structure, and the second substrate are disposed in this order. In addition, at least one of an upper face of the first wiring structure and an upper face of the second wiring structure has a concave portion, and a conductive material forms a bottom face of the concave portion.