According to one embodiment, a semiconductor device includes an integrated circuit (IC) chip and a silicon capacitor. The IC chip has a first terminal and a second terminal on a first surface. The silicon capacitor has a first electrode and a second electrode on a second surface facing the first surface. The first electrode is electrically connected to the first terminal through a first conductive member, and the second electrode is electrically connected to the second terminal through a second conductive member.

Some embodiments include an integrated assembly having pillars arranged in an array. The pillars have channel regions between upper and lower source/drain regions. Gating structures are proximate to the channel regions and extend along a row direction. Digit lines are beneath the pillars, extend along a column direction, and are coupled with the lower source/drain regions. Linear structures are above the pillars and extend along the column direction. Bottom electrodes are coupled with the upper source/drain regions. The bottom electrodes have horizontal segments adjacent the upper source/drain regions and have vertical segments extending upwardly from the horizontal segments. The vertical segments are adjacent to lateral sides of the linear structures. Ferroelectric-insulative-material and top-electrode-material are over the bottom electrodes. A slit passes through the top-electrode-material, is directly over one of the linear structures, and extends along the column direction.

The present application relates to a mask structure, a semiconductor structure and methods for manufacturing the same. The method for manufacturing a mask structure includes: dividing an overall structure into two regions, and developing the array region and the periphery region with a negative photoresist.

A semiconductor structure and a method for manufacturing same. The semiconductor structure includes a storage unit, which includes: a first dielectric layer and a metal bit line located therein; a semiconductor channel, located on the metal bit line; a word line, disposed surrounding part of the semiconductor channel; a second dielectric layer, located between the metal bit line and the word line, and on top of the word line; a first and a second lower electrode layers, stacked on the semiconductor channel, the first lower electrode layer contacting the top surface of the semiconductor channel; an upper electrode layer, located on top of the second lower electrode layer, and surrounding the first and the second lower electrode layers; and a capacitor dielectric layer, located between the upper electrode layer and the first lower electrode layer, and between the upper electrode layer and the second lower electrode layer.

Embodiments relate to a semiconductor device and a forming method. The semiconductor device includes: a substrate; a memory array positioned on the substrate and at least including memory cells spaced along a first direction, each of the memory cells including a transistor, the transistor including a gate electrode, channel regions distributed on two opposite sides of the gate electrode along a third direction, and a source region and a drain region distributed on two opposite sides of each of the channel regions along a second direction, the first direction and the third direction being directions parallel to a top surface of the substrate, the first direction intersecting with the third direction, and the second direction being a direction perpendicular to the top surface of the substrate; and a word line extending along the first direction and continuously electrically connected to the gate electrodes spaced along the first direction.

A semiconductor structure and a method for manufacturing the same, and a memory are provided. The semiconductor structure includes: a substrate, a plurality of oxide pillars, a plurality of active pillars, a first insulating layer and a storage structure. The plurality of oxide pillars are on the substrate and arranged in an array along a first direction and a second direction. Both the first direction and the second direction are parallel to a surface of the substrate, and the first direction intersects with the second direction. The first insulating layer is in a gap between the oxide pillars. Each active pillar is on a top surface of a corresponding one of the oxide pillars. The storage structure covers at least part of a side wall of the active pillar.

A semiconductor structure and a method for manufacturing a semiconductor structure are provided. The semiconductor structure includes: a substrate, first gate structures, second gate structures, and a covering layer. The substrate includes semiconductor channels spaced apart from each other and arranged at a top portion of the substrate and extending in a vertical direction. Each first gate structure is arranged in a first area of a respective semiconductor channel and is arranged around the respective semiconductor channel. Each second gate structure is arranged in a second area of a respective semiconductor channel and includes a ring structure and at least one bridge structure. The covering layer is arranged in a spaced area between any two adjacent semiconductor channels. The covering layer includes first interconnecting holes extending in the vertical direction.

A semiconductor structure includes a substrate, and a plurality of first semiconductor columns, a storage structure, a plurality of transistors and a first protective layer located above the substrate. The plurality of first semiconductor columns are arranged in array in first and second directions. Each first semiconductor column includes a first part and a second part located on same. The second part includes a bottom portion, an intermediate portion and a top portion. The first direction and the second direction intersect with each other and are both parallel to top surface of the substrate. The storage structure surrounds sidewalls of the first parts. The first protective layer surrounds sidewalls of the top portions of the second parts. A channel structure of each transistor is located in the intermediate portion of the second part, and an extending direction of the channel structure is the same as that of the second part.

A method for forming a semiconductor structure includes the following: providing a semiconductor substrate, in which stack structures and isolation structures alternately arranged along a first direction are formed on the semiconductor substrate; forming a support structure in the stack structures and the isolation structures; etching the stack structures and the isolation structures to form multiple zigzag first semiconductor pillars in an array arrangement along the first direction and a second direction, in which an interspace is formed between the zigzag first semiconductor pillars; each zigzag first semiconductor pillar comprises first convex structures and first concave structures alternately arranged along a third direction, and is supported by the support structure; the first direction, the second direction and the third direction are perpendicular to one another, and the second direction is perpendicular to a top surface of the semiconductor substrate; forming capacitor structures the interspace.

A semiconductor structure, a method for manufacturing the same and a memory are provided. The semiconductor structure includes a substrate, multiple semiconductor pillars, memory structures, and multiple transistors. The multiple semiconductor pillars are arrayed along a first direction and a second direction. Each semiconductor pillar includes a first portion and a second portion on the first portion. The memory structure includes a first electrode layer, a dielectric layer and a second electrode layer. The first electrode layers cover sidewalls of the first portions and are located in first filling regions arranged at intervals. Each first filling region surrounds a sidewall of the first portion. The dielectric layers cover at least surfaces of the first electrode layers. The second electrode layers cover surfaces of the dielectric layers. Channel structures of the transistors are located in the second portions, and extend in a same direction as the second portions.