In an embodiment, a method of fabricating a semiconductor device includes providing a first substrate structure, the first substrate structure including a first substrate body, a first conductive connection structure and a first two-dimensional inorganic layer having negative charges disposed adjacent to each other over the first substrate body, providing a second substrate structure, the second substrate structure including a second substrate body, a second conductive connection structure and a second two-dimensional inorganic layer having negative charges disposed adjacent to each other over the second substrate body, and joining the first and second substrate structure to each other such that the first conductive connection structure and the second conductive connection structure are connected to each other, and the first two-dimensional inorganic layer and the second two-dimensional inorganic layer are joined to each other.

A bonding method can include polishing a first bonding layer of a first element for direct bonding, the first bonding layer comprises a first conductive pad and a first non-conductive bonding region. After the polishing, a last chemical treatment can be performed on the polished first bonding layer. After performing the last chemical treatment, the first bonding layer of the first element can be directly bonded to a second bonding layer of a second element without an intervening adhesive, including directly bonding the first conductive pad to a second conductive pad of the second bonding layer and directly bonding the first non-conductive bonding region to a second nonconductive bonding region of the second bonding layer. No treatment or rinse is performed on the first bonding layer between performing the last chemical treatment and directly bonding.

A bonding method can include polishing a first bonding layer of a first element for direct bonding, the first bonding layer comprises a first conductive pad and a first non-conductive bonding region. After the polishing, a last chemical treatment can be performed on the polished first bonding layer. After performing the last chemical treatment, the first bonding layer of the first element can be directly bonded to a second bonding layer of a second element without an intervening adhesive, including directly bonding the first conductive pad to a second conductive pad of the second bonding layer and directly bonding the first non-conductive bonding region to a second nonconductive bonding region of the second bonding layer. No treatment or rinse is performed on the first bonding layer between performing the last chemical treatment and directly bonding.

A semiconductor package includes a substrate, a plurality of semiconductor devices stacked on the substrate, a plurality of underfill fillets disposed between the plurality of semiconductor devices and between the substrate and the plurality of semiconductor devices, and molding resin surrounding the plurality of semiconductor devices. At least one of the underfill fillets is exposed from side surfaces of the molding resin.

A semiconductor package includes a substrate, a plurality of semiconductor devices stacked on the substrate, a plurality of underfill fillets disposed between the plurality of semiconductor devices and between the substrate and the plurality of semiconductor devices, and molding resin surrounding the plurality of semiconductor devices. At least one of the underfill fillets is exposed from side surfaces of the molding resin.

There is provided an imaging device, an electronic apparatus including an imaging device, and an automotive vehicle including an electronic apparatus including an imaging device, including: a first substrate including a first set of photoelectric conversion units; a second substrate including a second set of photoelectric conversion units; and an insulating layer between the first substrate and the second substrate; where the insulating layer has a capability to reflect a first wavelength range of light and transmit a second wavelength range of light that is longer than the first wavelength range of light.

Methods for forming packaged semiconductor devices including backside power rails and packaged semiconductor devices formed by the same are disclosed. In an embodiment, a device includes a first integrated circuit device including a first transistor structure in a first device layer; a front-side interconnect structure on a front-side of the first device layer; and a backside interconnect structure on a backside of the first device layer, the backside interconnect structure including a first dielectric layer on the backside of the first device layer; and a first contact extending through the first dielectric layer to a source/drain region of the first transistor structure; and a second integrated circuit device including a second transistor structure in a second device layer; and a first interconnect structure on the second device layer, the first interconnect structure being bonded to the front-side interconnect structure by dielectric-to-dielectric and metal-to-metal bonds.

Methods for forming packaged semiconductor devices including backside power rails and packaged semiconductor devices formed by the same are disclosed. In an embodiment, a device includes a first integrated circuit device including a first transistor structure in a first device layer; a front-side interconnect structure on a front-side of the first device layer; and a backside interconnect structure on a backside of the first device layer, the backside interconnect structure including a first dielectric layer on the backside of the first device layer; and a first contact extending through the first dielectric layer to a source/drain region of the first transistor structure; and a second integrated circuit device including a second transistor structure in a second device layer; and a first interconnect structure on the second device layer, the first interconnect structure being bonded to the front-side interconnect structure by dielectric-to-dielectric and metal-to-metal bonds.

A method for manufacturing a semiconductor device includes forming a thermosetting resin film on a first metal layer, forming an opening in the resin film, forming a second metal layer that covers a region from an upper surface of the first metal layer exposed from the opening of the resin film to an upper surface of the resin film, performing heat treatment at a temperature equal to or higher than a temperature at which the resin film is cured after forming the second metal layer, forming a cover film that covers the upper surface of the resin film and a side surface of the second metal layer after performing the heat treatment, and forming a solder on an upper surface of the second metal layer exposed from an opening of the cover film after forming the cover film.

A method for manufacturing a semiconductor device includes forming a thermosetting resin film on a first metal layer, forming an opening in the resin film, forming a second metal layer that covers a region from an upper surface of the first metal layer exposed from the opening of the resin film to an upper surface of the resin film, performing heat treatment at a temperature equal to or higher than a temperature at which the resin film is cured after forming the second metal layer, forming a cover film that covers the upper surface of the resin film and a side surface of the second metal layer after performing the heat treatment, and forming a solder on an upper surface of the second metal layer exposed from an opening of the cover film after forming the cover film.