A semiconductor package and a method of manufacturing the same are provided. The semiconductor package includes a semiconductor die, a cap layer, a conductive terminal, and a dam structure. The semiconductor die has a first surface. The cap layer is over the semiconductor die and has a second surface facing the first surface of the semiconductor die. The conductive terminal penetrates the cap layer and electrically connects to the semiconductor die. The dam structure is between the semiconductor die and the cap layer and surrounds a portion of the conductive terminal between the first surface and the second surface, thereby forming a gap between the cap layer and the semiconductor die.

The present invention provides a semiconductor device including an insulating layer, a conductive layer bonded to one main surface of the insulating layer, a semiconductor element arranged such that the upper surface of the semiconductor element faces a direction same as the one main surface of the insulating layer, an upper electrode provided on the upper surface of the semiconductor element, a wiring member that has one end electrically bonded to the upper electrode of the semiconductor element and has another end electrically bonded to the conductive layer, and has a hollow portion, a first sealing material, and a second sealing material, in which the first sealing material seals at least part of the semiconductor element so as to be in contact with the semiconductor element, and the second sealing material seals the wiring member so as to be in contact with the wiring member.

The present invention provides a semiconductor device including an insulating layer, a conductive layer bonded to one main surface of the insulating layer, a semiconductor element arranged such that the upper surface of the semiconductor element faces a direction same as the one main surface of the insulating layer, an upper electrode provided on the upper surface of the semiconductor element, a wiring member that has one end electrically bonded to the upper electrode of the semiconductor element and has another end electrically bonded to the conductive layer, and has a hollow portion, a first sealing material, and a second sealing material, in which the first sealing material seals at least part of the semiconductor element so as to be in contact with the semiconductor element, and the second sealing material seals the wiring member so as to be in contact with the wiring member.

A method of manufacturing a semiconductor device includes forming a cell chip including a first substrate, a source layer on the first substrate, a stacked structure on the source layer, and a channel layer passing through the stacked structure and coupled to the source layer, flipping the cell chip, exposing a rear surface of the source layer by removing the first substrate from the cell chip, performing surface treatment on the rear surface of the source layer to reduce a resistance of the source layer, forming a peripheral circuit chip including a second substrate and a circuit on the second substrate, and bonding the cell chip including the source layer with a reduced resistance to the peripheral circuit chip.

A method of manufacturing a semiconductor device includes forming a cell chip including a first substrate, a source layer on the first substrate, a stacked structure on the source layer, and a channel layer passing through the stacked structure and coupled to the source layer, flipping the cell chip, exposing a rear surface of the source layer by removing the first substrate from the cell chip, performing surface treatment on the rear surface of the source layer to reduce a resistance of the source layer, forming a peripheral circuit chip including a second substrate and a circuit on the second substrate, and bonding the cell chip including the source layer with a reduced resistance to the peripheral circuit chip.

The present disclosure provides a method of creating a bond between a first object and a second object. For example, at least one insert may be provided at a location in a space formed between the first object and the second object. In additional, a filler material may be provided proximal to the location. An inter-diffusion layer may be formed, wherein a first portion of the inter-diffusion layer is formed by diffusion between the filler material and the at least one insert, wherein a second portion of the inter-diffusion layer is formed between the filler material and the first object, wherein a third portion of the inter-diffusion layer is formed between the filler material and the second object, wherein the first portion is coadunate with each of the second portion and third portion.

The present disclosure provides a method of creating a bond between a first object and a second object. For example, at least one insert may be provided at a location in a space formed between the first object and the second object. In additional, a filler material may be provided proximal to the location. An inter-diffusion layer may be formed, wherein a first portion of the inter-diffusion layer is formed by diffusion between the filler material and the at least one insert, wherein a second portion of the inter-diffusion layer is formed between the filler material and the first object, wherein a third portion of the inter-diffusion layer is formed between the filler material and the second object, wherein the first portion is coadunate with each of the second portion and third portion.

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.

The present invention provides a semiconductor device including an insulating layer, a conductive layer bonded to one main surface of the insulating layer, a semiconductor element arranged such that the upper surface of the semiconductor element faces a direction same as the one main surface of the insulating layer, an upper electrode provided on the upper surface of the semiconductor element, a wiring member that has one end electrically bonded to the upper electrode of the semiconductor element and has another end electrically bonded to the conductive layer, and has a hollow portion, a first sealing material, and a second sealing material, in which the first sealing material seals at least part of the semiconductor element so as to be in contact with the semiconductor element, and the second sealing material seals the wiring member so as to be in contact with the wiring member.