In certain aspects, a three-dimensional (3D) memory device includes a first semiconductor structure and a second semiconductor bonded with the first semiconductor structure. The first semiconductor structure includes an array of NAND memory strings, a semiconductor layer in contact with source ends of the array of NAND memory strings, an insulating layer in contact with the semiconductor layer, and a contact structure in the insulating layer. The insulating layer electrically insulates the contact structure from the semiconductor layer. The second semiconductor structure includes a transistor.

Aspects of the disclosure provide a semiconductor device and a method to fabricate the semiconductor device. The semiconductor device includes a first die comprising a first contact structure formed on a face side of the first die. The semiconductor device includes a first semiconductor structure and a first pad structure that are disposed on a back side of the first die. The first semiconductor structure is conductively connected with the first contact structure from the back side of the first die and the first pad structure is conductively coupled with the first semiconductor structure. An end of the first contact structure protrudes into the first semiconductor structure without connecting to the first pad structure. The first die and a second die can be bonded face-to-face.

A control circuit connected to non-volatile memory cells applies a programming signal to a plurality of the non-volatile memory cells in order to program the plurality of the non-volatile memory cells to a set of data states. The control circuit performs program verification for the non-volatile memory cells, including applying bit line voltages during program verification based on word line position and data state being verified.

Disclosed are semiconductor packages and thermal management methods thereof. The semiconductor package includes an upper semiconductor chip; and a lower semiconductor chip connected via a plurality of through electrodes to the upper semiconductor chip. The lower semiconductor chip may include at least one temperature sensor configured to sense a temperature of the upper semiconductor chip, a power control unit connected to the at least one temperature sensor, a power switching element connected to at least a first one of the plurality of through electrodes, and a clock control element connected to at least a second one of the plurality of through electrodes.

A semiconductor package including a first semiconductor die, a second semiconductor die, a first insulating encapsulation, a dielectric layer structure, a conductor structure and a second insulating encapsulation is provided. The first semiconductor die includes a first semiconductor substrate and a through silicon via (TSV) extending from a first side to a second side of the semiconductor substrate. The second semiconductor die is disposed on the first side of the semiconductor substrate. The first insulating encapsulation on the second semiconductor die encapsulates the first semiconductor die. A terminal of the TSV is coplanar with a surface of the first insulating encapsulation. The dielectric layer structure covers the first semiconductor die and the first insulating encapsulation. The conductor structure extends through the dielectric layer structure and contacts with the through silicon via. The second insulating encapsulation contacts with the second semiconductor die, the first insulting encapsulation, and the dielectric layer structure.

A semiconductor device includes a substrate, at least one via, a liner layer and a conductive layer. The substrate includes an electronic circuitry. The at least one via passes through the substrate. The at least one via includes a plurality of concave portions on a sidewall thereof. The liner layer fills in the plurality of concave portions of the at least one via. The conductive layer is disposed on the sidewall of the at least one via, covers the liner layer, and extends onto a surface of the substrate. The thickness of the conductive layer on the sidewall of the at least one via is varied.

A die includes: a semiconductor substrate; an interconnect structure disposed on the semiconductor substrate and including: inter-metal dielectric (IMD) layers; metal features embedded in the IMD layers; and a guard ring structure including concentric first and second guard rings that extend through at least a subset of the IMD layers; and a through silicon via (TSV) structure extending through the semiconductor substrate and the subset of IMD layers to electrically contact one of the metal features. The first guard ring surrounds the TSV structure; and the second guard ring surrounds the first guard ring and is configured to reduce a parasitic capacitance between the guard ring structure and the TSV structure.

A 3D IC structure includes multiple die layers, such as a top die layer and a bottom die layer. The top die layer and/or the bottom die layer each includes devices such as computing units, Analog-to-Digital converters, analog circuits, RF circuits, logic circuits, sensors, Input/Output devices, and/or memory devices. The devices on the first and the second die layers are laterally surrounded by, or adjacent, vertical interconnect structures (VIS).

A semiconductor structure and a manufacturing method thereof are provided. A semiconductor structure includes top, bottom, and middle tiers. The bottom tier includes a first interconnect structure overlying a first semiconductor substrate, and a first front-side bonding structure overlying the first interconnect structure. The middle tier interposed between and electrically coupled to the top and bottom tiers includes a second interconnect structure overlying a second semiconductor substrate, a second front-side bonding structure interposed between the top tier and the second interconnect structure, and a back-side bonding structure interposed between the second semiconductor substrate and the first front-side bonding structure. A bonding feature of the second front-side bonding structure includes a first bonding via in contact with the second interconnect structure, a first bonding contact overlying the first bonding via, and a barrier layer interface between a bottom of the first bonding contact and a top of the first bonding via.

Provided are a semiconductor device and a method for manufacturing the same, and a semiconductor package. The semiconductor device includes a die stack and a cap substrate. The die stack includes a first die, second dies stacked on the first die, and a third die stacked on the second dies. The first die includes first through semiconductor vias. Each of the second dies include second through semiconductor vias. The third die includes third through semiconductor vias. The cap substrate is disposed on the third die of the die stack. A sum of a thickness of the third die and a thickness of the cap substrate ranges from about 50 μm to about 80 μm.