In various embodiments, a bonded structure is disclosed. The bonded structure can include an element and a passive electronic component having a first surface bonded to the element and a second surface opposite the first surface. The passive electronic component can comprise a first anode terminal bonded to a corresponding second anode terminal of the element and a first cathode terminal bonded to a corresponding second cathode terminal of the element. The first anode terminal and the first cathode terminal can be disposed on the first surface of the passive electronic component.

A bonded assembly includes a first semiconductor die that includes first metallic bonding structures embedded within a first bonding-level dielectric layer, and a second semiconductor die that includes second metallic bonding structures embedded within a second bonding-level dielectric layer and bonded to the first metallic bonding structures by metal-to-metal bonding. One of the first metallic bonding structures a pad portion, and a via portion located between the pad portion and the first semiconductor device, the via portion having second tapered sidewalls.

A semiconductor device includes a first chip and a second chip bonded to the first chip. The first chip includes: a substrate; a logic circuit disposed on the substrate; and a plurality of first dummy pads that are disposed above the logic circuit, are disposed on a first bonding surface where the first chip is bonded to the second chip, the plurality of first dummy pads not being electrically connected to the logic circuit. The second chip includes a plurality of second dummy pads disposed on the plurality of first dummy pads and a memory cell array provided above the plurality of second dummy pads. A coverage of the first dummy pads on the first bonding surface is different between a first region and a second region, the first region separated from a first end side of the first chip, the second region disposed between the first end side and the first region.

A semiconductor package includes a first package component comprising: a first semiconductor die; a first encapsulant around the first semiconductor die; and a first redistribution structure electrically connected to the semiconductor die. The semiconductor package further includes a second package component bonded to the first package component, wherein the second package component comprises a second semiconductor die; a heat spreader between the first semiconductor die and the second package component; and a second encapsulant between the first package component and the second package component, wherein the second encapsulant has a lower thermal conductivity than the heat spreader.

A first metal layer can be deposited over first dielectric material layers of a first substrate, and can be patterned into first bonding pads. A first low-k material layer can be formed over the first bonding pads. The first low-k material layer includes a low-k dielectric material such as a MOF dielectric material or organosilicate glass. A second semiconductor die including second bonding pads can be provided. The first bonding pads are bonded to the second bonding pads to form a bonded assembly.

A device comprises a first chip comprising a first connection pad embedded in a first dielectric layer and a first bonding pad embedded in the first dielectric layer, wherein the first bonding pad comprises a first portion and a second portion, the second portion being in contact with the first connection pad and a second chip comprising a second bonding pad embedded in a second dielectric layer of the second chip, wherein the first chip and the second chip are face-to-face bonded together through the first bonding pad the second bonding pad.

A semiconductor device includes a semiconductor substrate, a dielectric structure, an electrical insulating and thermal conductive layer, an etch stop layer and a circuit layer. The electrical insulating and thermal conductive layer is disposed over the semiconductor substrate. The etch stop layer includes silicon nitride and is disposed between the semiconductor substrate and the electrical insulating and thermal conductive layer. The dielectric structure is disposed over the electrical insulating and thermal conductive layer, wherein a thermal conductivity of the electrical insulating and thermal conductive layer is substantially greater than a thermal conductivity of the dielectric structure. The circuit layer is disposed in the dielectric structure.

A method of preparation of a first surface of an electronic component, the first surface being intended to be bonded to another electronic component by a direct bonding and the first surface having previously been submitted to a surface treatment in an atmosphere including nitrogen, for example, a treatment in a nitrogen plasma or an ozone UV treatment, the preparation method including: placing into contact the first surface with an aqueous solution including at least 90% water, for a contacting duration longer than or equal to 30 minutes; and then drying the first surface.

According to one embodiment, a semiconductor device includes a substrate, a logic circuit provided on the substrate, and a memory cell array provided over the logic circuit that includes a plurality of electrode layers stacked on top of one another and a semiconductor layer provided over the plurality of electrode layers. The semiconductor device further includes a first plug and a second plug provided above the logic circuit and electrically connected to the logic circuit, a bonding pad provided on the first plug, and a metallic wiring layer provided on the memory cell array, electrically connected to the semiconductor layer, and electrically connected to the second plug.

A DRAM chiplet structure is provided. The DRAM chiplet structure includes a first hybrid bonding structure, a DRAM interface structure, and a first DRAM core structure. The first hybrid bonding structure has a first surface and a second surface. The DRAM interface structure is in contact with the first surface of the first hybrid bonding structure. The first DRAM core structure is in contact with the second surface of the first hybrid bonding structure. The DRAM interface structure is electrically connected to the first DRAM core structure through the first hybrid bonding structure.