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 manufacturing method of a semiconductor structure includes at least the following steps. Forming a first tier includes forming a conductive via extending from a lower portion of a first interconnect structure into a first semiconductor substrate underlying the lower portion; forming an upper portion of the first interconnect structure on the conductive via and the lower portion; forming a first surface dielectric layer on the upper portion; and forming a first and a second bonding connectors in the first surface dielectric layer. The first bonding connector extends to be in contact with an upper-level interconnecting layer of the first interconnect structure, the second bonding connector is narrower than the first bonding connector and extends to be in contact with a lower-level interconnecting layer of the first interconnect structure, and a top surface of the conductive via is between the upper-level interconnecting layer and the first semiconductor substrate.

Embodiments of 3D memory devices and methods for forming the same are disclosed. In an example, a 3D memory device includes a substrate, a peripheral circuit on the substrate, a memory stack including interleaved conductive layers and dielectric layers above the peripheral circuit, a first semiconductor layer above the memory stack, a second semiconductor layer above and in contact with the first semiconductor layer, a plurality of channel structures each extending vertically through the memory stack and the first semiconductor layer, and an insulating structure extending vertically through the memory stack, the first semiconductor layer, and the second semiconductor layer.

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 is provided for obtaining one or more Light Emitting Diode (LED) devices reconstituted over a carrier substrate. The method includes providing a silicon-based semiconductor substrate as the carrier substrate; providing, per each of the one or more LED devices, a compound semiconductor stack including an LED layer; applying a SiCN layer to the stack and the substrate, respectively; bonding the stack to the substrate, wherein the SiCN layer applied to the stack and the SiCN layer applied to the substrate are contacted; and annealing, after bonding, the bonded stack and substrate at a temperature equal to or higher than a processing temperature for completing the LED device from the stack, wherein said temperatures are at least 400° C. A semiconductor structure including the one or more LED devices reconstituted over a carrier substrate is also provided.

First semiconductor structures are formed on a first wafer. At least one of the first semiconductor structures includes a processor, an array of SRAM cells, and a first bonding layer including first bonding contacts. Second semiconductor structures are formed on a second wafer. At least one of the second semiconductor structures includes an array of NAND memory cells and a second bonding layer including second bonding contacts. The first wafer and the second wafer are bonded in a face-to-face manner, such that the at least one of the first semiconductor structures is bonded to the at least one of the second semiconductor structures. The first bonding contacts of the first semiconductor structure are in contact with the second bonding contacts of the second semiconductor structure at a bonding interface. The bonded first and second wafers are diced into dies. At least one of the dies includes the bonded first and second semiconductor structures.

First semiconductor structures are formed on a first wafer. At least one of the first semiconductor structures includes a processor, an array of SRAM cells, and a first bonding layer including first bonding contacts. Second semiconductor structures are formed on a second wafer. At least one of the second semiconductor structures includes an array of NAND memory cells and a second bonding layer including second bonding contacts. The first wafer and the second wafer are bonded in a face-to-face manner, such that the at least one of the first semiconductor structures is bonded to the at least one of the second semiconductor structures. The first bonding contacts of the first semiconductor structure are in contact with the second bonding contacts of the second semiconductor structure at a bonding interface. The bonded first and second wafers are diced into dies. At least one of the dies includes the bonded first and second semiconductor structures.

A semiconductor structure and the manufacturing method thereof are provided. A semiconductor structure includes a semiconductor substrate, a plurality of interconnecting layers, a first connector, and a second connector. The semiconductor substrate includes a plurality of semiconductor devices therein. The interconnecting layers are disposed over the semiconductor substrate and electrically coupled to the semiconductor devices. The first connector is disposed over the plurality of interconnecting layers and extends to be in contact with a first level of the plurality of interconnecting layers. The second connector is disposed over the plurality of interconnecting layers and substantially leveled with the first connector. The second connector extends further than the first connector to be in contact with a second level of the plurality of interconnecting layers between the first level of the plurality of interconnecting layers and the semiconductor substrate, and the first connector is wider than the second connector.

A package includes a memory stack attached to a logic device, the memory stack including first memory structures, a first redistribution layer over and electrically connected to the first memory structures, second memory structures on the first redistribution layer, a second redistribution layer over and electrically connected to the second memory structures, and first metal pillars on the first redistribution layer and adjacent the second memory structures, the first metal pillars electrically connecting the first redistribution layer and the second redistribution layer, wherein each first memory structure of the first memory structures includes a memory die comprising first contact pads and a peripheral circuitry die comprising second contact pads, wherein the first contact pads of the memory die are bonded to the second contact pads of the peripheral circuitry die.