A method according to an embodiment is for forming a capacitor structure on a wafer. A first capacitor is formed on a first side of a wafer, and a second capacitor is formed on a second side of the wafer. The capacitor structure includes the first capacitor and the second capacitor. A trench capacitor is fabricated at both ends of an interposer, which can increase capacitance, and greatly improve the stability of the supplied power.

A method according to an embodiment is for forming a capacitor structure on a wafer. A first capacitor is formed on a first side of a wafer, and a second capacitor is formed on a second side of the wafer. The capacitor structure includes the first capacitor and the second capacitor. A trench capacitor is fabricated at both ends of an interposer, which can increase capacitance, and greatly improve the stability of the supplied power.

A 3D semiconductor device including: a first level including a plurality of first metal layers; a second level, where the second level overlays the first level, where the second level includes at least one single crystal silicon layer, where the second level includes a plurality of transistors, where each transistor of the plurality of transistors includes a single crystal channel, where the second level includes a plurality of second metal layers, where the plurality of second metal layers include interconnections between the transistors of the plurality of transistors, and where the second level is overlaid by a first isolation layer; and a connective path between the plurality of transistors and the plurality of first metal layers, where the connective path includes a via disposed through at least the single crystal silicon layer, and where the via includes contact with at least one of the plurality of transistors.

In certain aspects, a three-dimensional (3D) memory device includes a first semiconductor structure, a second semiconductor structure, and a bonding interface between the first and second semiconductor structures. The first semiconductor structure includes an array of NAND memory strings, a first peripheral circuit of the array of NAND memory strings including a first transistor, a polysilicon layer between the array of NAND memory strings and the first peripheral circuit, and a first semiconductor layer in contact with the first transistor. The polysilicon layer is in contact with sources of the array of NAND memory strings. The second semiconductor structure includes a second peripheral circuit of the array of NAND memory strings including a second transistor, and a second semiconductor layer in contact with the second transistor. The second semiconductor layer is between the bonding interface and the second peripheral circuit. The polysilicon layer is between the first semiconductor layer and the second semiconductor layer.

In certain aspects, a three-dimensional (3D) memory device includes a first semiconductor structure, a second semiconductor structure, and a bonding interface between the first and the second semiconductor structures. The first semiconductor structure includes an array of NAND memory strings, a first peripheral circuit of the array of NAND memory strings including a first transistor, a polysilicon layer between the array of NAND memory strings and the first peripheral circuit, and a first semiconductor layer in contact with the first transistor. The polysilicon layer is in contact with sources of the array of NAND memory strings. The second semiconductor structure includes a second peripheral circuit of the array of NAND memory strings including a second transistor, and a second semiconductor layer in contact with the second transistor. The second semiconductor layer is between the bonding interface and the second semiconductor layer. The polysilicon layer is between the first semiconductor layer and the second semiconductor layer.

In certain aspects, a three-dimensional (3D) memory device includes a first semiconductor structure, a second semiconductor structure, and a bonding interface between the first semiconductor structure and the second semiconductor structure. The first semiconductor structure includes an array of memory cells and a first semiconductor layer in contact with sources of the array of NAND memory strings. The second semiconductor structure includes a second semiconductor layer, a first peripheral circuit of the array of memory cells including a first transistor in contact with a first side of the second semiconductor layer, and a second peripheral circuit of the array of NAND memory strings including a second transistor in contact with a second side of the second semiconductor layer opposite to the first side.

In certain aspects, a three-dimensional (3D) memory device includes a first semiconductor structure, a second semiconductor structure, a third semiconductor structure, a first bonding interface between the first semiconductor structure and the second semiconductor structure, and a second bonding interface between the second semiconductor structure and the third semiconductor structure. The first semiconductor structure includes an array of NAND memory strings and a first semiconductor layer in contact with sources of the array of NAND memory strings. The second semiconductor structure includes a first peripheral circuit of the array of NAND memory strings including a first transistor, and a second semiconductor layer in contact with the first transistor. A third semiconductor structure includes a second peripheral circuit of the array of NAND memory strings including a second transistor, and a third semiconductor layer in contact with the second transistor. The first peripheral circuit is between the first bonding interface and the second semiconductor layer. The second peripheral circuit is between the second bonding interface and the third semiconductor layer.

In certain aspects, a three-dimensional (3D) memory device includes a first semiconductor structure, a second semiconductor structure, a third semiconductor structure, a first bonding interface between the first semiconductor structure and the second semiconductor structure, and a second bonding interface between the second semiconductor structure and the third semiconductor structure. The first semiconductor structure includes an array of NAND memory strings and a first semiconductor layer in contact with sources of the array of NAND memory strings. The second semiconductor structure includes a first peripheral circuit of the array of NAND memory strings including a first transistor, and a second semiconductor layer in contact with the first transistor. A third semiconductor structure includes a second peripheral circuit of the array of NAND memory strings including a second transistor, and a third semiconductor layer in contact with the second transistor. The first peripheral circuit is between the first bonding interface and the second semiconductor layer. The third semiconductor layer is between the second peripheral circuit and the second bonding interface.

A method of forming a microelectronic device comprises forming a microelectronic device structure comprising memory cells, digit lines, word lines, and at least one isolation material covering and surrounding the memory cells, the digit lines, and the word lines. An additional microelectronic device structure comprising control logic devices and at least one additional isolation material covering and surrounding the control logic devices is formed. The additional microelectronic device structure is attached to the microelectronic device structure. Contact structures are formed to extend through the at least one isolation material and the at least one additional isolation material. Some of the contact structures are coupled to some of the digit lines and some of the control logic devices. Some other of the contact structures are coupled to some of the word lines and some other of the control logic devices. Microelectronic devices, electronic systems, and additional methods are also described.

A device package comprising an integrated cooling assembly. The integrated cooling assembly comprises a semiconductor device and a cold plate attached to the semiconductor device. The cold plate comprises a top portion and a bottom portion horizontally adjacent to the top portion. The top portion comprises upper cavity dividers extending downwardly to define upper cavity volumes. The bottom portion comprises lower cavity dividers extending upwardly to define lower cavity volumes. The upper cavity dividers and the lower cavity dividers alternate across a horizontal length of the cold plate.