A semiconductor device includes a silicon carbide layer, a metal carbide layer arranged over the silicon carbide layer, and a solder layer arranged over and in contact with the metal carbide layer.

A semiconductor device includes a silicon carbide layer, a metal carbide layer arranged over the silicon carbide layer, and a solder layer arranged over and in contact with the metal carbide layer.

The present application discloses a method for fabricating a semiconductor device. The semiconductor device includes an active interposer including a programmable unit, a first memory die positioned above the active interposer and including a storage unit, and a first logic die positioned below the active interposer. The active interposer, the first memory die, and the first logic die are electrically coupled. method includes providing an active interposer comprising a programmable unit; providing a first logic die and bonding a first side of the active interposer onto the first logic die; providing a first memory die comprising a storage unit; and bonding the first memory die onto a second side of the active interposer, wherein the second side of the active interposer is parallel to the first side of the active interposer.

Embodiments of this application disclose a hybrid bonding structure and a hybrid bonding method. The hybrid bonding structure includes a first chip and a second chip. A surface of the first chip includes a first insulation dielectric and a first metal, and a first gap area exists between the first metal and the first insulation dielectric. A surface of the second chip includes a second insulation dielectric and a second metal. A surface of the first metal is higher than a surface of the first insulation dielectric. Metallic bonding is formed after the first metal is in contact with the second metal, and the first metal is longitudinally and transversely deformed in the first gap area. Insulation dielectric bonding is formed after the first insulation dielectric is in contact with the second insulation dielectric.

The present disclosure relates to a semiconductor device structure with a conductive polymer liner and a method for preparing the semiconductor device structure. The semiconductor device structure includes a first metal layer disposed over a semiconductor substrate, and a second metal layer disposed over the first metal layer. The semiconductor device structure also includes a conductive structure disposed between the first metal layer and the second metal layer. The conductive structure includes a first conductive via and a first conductive polymer liner surrounding the first conductive via.

A light-emitting diode (LED) array is formed by bonding an LED chip or wafer to a backplane substrate via curved interconnects. The backplane substrate may include circuits for driving the LED's. One or more curved interconnects are formed on the backplane substrate. A curved interconnect may be electrically connected to a corresponding circuit of the backplane substrate, and may include at least a portion with curvature. The LED chip or wafer may include one or more LED devices. Each LED device may have one or more electrical contacts. The LED chip or wafer is positioned above the backplane substrate to spatially align electrical contacts of the LED devices with the curved interconnects on the backplane substrate. The electrical contacts are bonded to the curved interconnects to electrically connect the LED devices to corresponding circuits of the backplane substrate.

A first metal layer can be deposited over first dielectric material layers of a first substrate, and can be patterned into first metallic plates. First bonding pads including a respective one of the first metallic plates are formed. A first polymer material layer can be formed over the first bonding pads. A second semiconductor die including second bonding pads is bonded to the first bonding pads to form a bonded assembly.

A first metal layer can be deposited over first dielectric material layers of a first substrate, and can be patterned into first metallic plates. First bonding pads including a respective one of the first metallic plates are formed. A first polymer material layer can be formed over the first bonding pads. A second semiconductor die including second bonding pads is bonded to the first bonding pads to form a bonded assembly.

A method of forming a bonded assembly includes providing a first semiconductor die containing a first substrate, first semiconductor devices, and first bonding pads that are electrically connected to a respective node of the first semiconductor devices, forming a first oxidation barrier layer on physically exposed surfaces of the first bonding pads, providing a second semiconductor die containing a second substrate, second semiconductor devices, and second bonding pads that are electrically connected to a respective node of the second semiconductor devices, and bonding the second bonding pads to the first bonding pads with at least the first oxidation barrier layer located between the respective first and second bonding pads.

A method of forming a bonded assembly includes providing a first semiconductor die containing a first substrate, first semiconductor devices, and first bonding pads that are electrically connected to a respective node of the first semiconductor devices, forming a first oxidation barrier layer on physically exposed surfaces of the first bonding pads, providing a second semiconductor die containing a second substrate, second semiconductor devices, and second bonding pads that are electrically connected to a respective node of the second semiconductor devices, and bonding the second bonding pads to the first bonding pads with at least the first oxidation barrier layer located between the respective first and second bonding pads.