A semiconductor structure is provided. The semiconductor structure includes a first substrate, and a first bonding structure and a first conductive via which are formed in the first substrate. The first bonding structure includes a first metal layer and a second metal layer with a melting point lower than a melting point of the first metal layer. The first metal layer includes a first surface and a second surface arranged opposite to each other. The first surface of the first metal layer is provided with a first groove, and the second metal layer is arranged in the first groove. The first conductive via is in contact with the second surface of the first metal layer. A projection of the first conductive via coincides with a projection of the first groove in a direction perpendicular to the first surface of the first metal layer.

A microelectronic device comprises a first microelectronic device structure, a second microelectronic device structure attached to the first microelectronic device structure. The first microelectronic device structure comprises a first memory array region comprising memory cells, each of the memory cells comprising an access device and a charge storage device operably coupled to the access device. The first microelectronic device structure further comprises a first base structure comprising first control logic devices configured to effectuate one or more control operations of the memory cells of the first memory array region. The second microelectronic device structure comprises a second memory array region comprising additional memory cells, each of the additional memory cells comprising an additional access device and an additional charge storage device operably coupled to the additional access device. The second microelectronic device further a second base structure comprising second control logic devices configured to effectuate one or more control operations of the additional memory cells of the second memory array region. Related microelectronic devices, electronic systems, and methods are also described.

A semiconductor package includes a first structure having a first insulating layer and a first bonding pad penetrating the first insulating layer, and a second structure on the first structure and having a second insulating layer bonded to the first insulating layer, a bonding pad structure penetrating the second insulating layer and bonded to the first bonding pad, and a test pad structure penetrating the second insulating layer and including a test pad in an opening penetrating the second insulating layer and having a protrusion with a flat surface, and a bonding layer filling the opening and covering the test pad and the flat surface, the protrusion of the test pad extending from a surface in contact with the bonding layer, and the flat surface of the protrusion being within the opening and spaced apart from an interface between the bonding layer and the first insulating layer.

A method includes: wetting a plurality of top dies disposed on a top wafer in a first wet clean tool located in a wet clean chamber; wetting a plurality of bottom dies disposed on a bottom wafer in a second wet clean tool located in the wet clean chamber, the plurality of bottom dies corresponding to the plurality of top dies, respectively; transferring the top wafer to a wafer-to-wafer bonding tool located in a wafer-to-wafer bonding chamber, without placing the top wafer in a first wafer container; transferring the bottom wafer to the wafer-to-wafer bonding tool, without placing the bottom wafer in a second wafer container; and bonding, by the wafer-to-wafer bonding tool, the top wafer to the bottom wafer.

A semiconductor package includes a first semiconductor chip including a first body portion, a first bonding layer including a first bonding insulating layer, a first redistribution portion including first redistribution layers, a first wiring insulating layer disposed between the first redistribution layers, and a second bonding layer including a second bonding insulating layer, a second redistribution portion including second redistribution layers, a second wiring insulating layer disposed between the second redistribution layers, and a second semiconductor chip disposed on the second redistribution portion. A lower surface of the first bonding insulating layer is bonded to an upper surface of the second bonding insulating layer, an upper surface of the first bonding insulating layer contacts the first body portion, a lower surface of the second bonding insulating layer contacts the second wiring insulating layer, and the first redistribution portion width is greater than the first semiconductor chip width.

A composite integrated circuit (IC) structure includes at least a first IC die in a stack with a second IC die. Each die has a device layer and metallization layers interconnected to transistors of the device layer and terminating at features. First features of the first IC die are primarily of a first composition with a first microstructure. Second features of the second IC die are primarily of a second composition or a second microstructure. A first one of the second features is in direct contact with one of the first features. The second composition has a thermal conductivity at least an order of magnitude lower than that of the first composition and first microstructure. The first composition may have a thermal conductivity at least 40 times that of the second composition or second microstructure.

A semiconductor memory device includes a memory chip. The memory chip includes a first region including a plurality of first memory cells and second memory cells, a second region different from the first region, a plurality of first word lines stacked apart from each other in a first direction in the first and second regions, a first pillar including a first semiconductor layer extending through the first word lines, and a first insulator layer provided between the first semiconductor layer and the first word lines, in the first region, the first memory cells being located at intersections of the first pillar with the first word lines, a first bonding pad in the second region, and a first transistor between the first word lines and the first bonding pad, and connected between one of the first word lines and the first bonding pad, in the second region.

A memory device is disclosed. The disclosed memory device may include a first wafer, and a second wafer stacked on and bonded to the first wafer. The first wafer may include a cell structure including a memory cell array; and a first logic structure disposed under the cell structure, and including a column control circuit. The second wafer may include a second logic structure including a row control circuit.

A semiconductor device and methods of forming are provided. The device includes a second die bonded to a first die and a third die bonded to the first die. An isolation material extends along sidewalls of the second die and the third die. A through via extends from the first die into the isolation material. A first passive device disposed in the isolation material, the first passive device being electrically connected to the first die.

Provided is a semiconductor package structure including a first die having a first bonding structure thereon, a second die having a second bonding structure thereon, a metal circuit structure, and a first protective structure. The second die is bonded to the first die such that a first bonding dielectric layer of the first bonding structure contacts a second bonding dielectric layer of the second bonding structure. The metal circuit structure is disposed over a top surface of the second die. The first protective structure is disposed within the top surface of the second die, and sandwiched between the metal circuit structure and the second die.