An integrated circuit device includes: a plurality of bit lines extending on a substrate in a first direction parallel to an upper surface of the substrate; a plurality of insulation capping structures respectively arranged on the plurality of bit lines, extending in the first direction, and including a first insulating material; a conductive plug between two adjacent bit lines among the plurality of bit lines on the substrate; a top capping layer arranged on the plurality of insulation capping structures and including a second insulating material different from the first insulating material; and a landing pad arranged on the conductive plug and arranged on a sidewall of a corresponding insulation capping structure among the plurality of insulation capping structures and the top capping layer.

A 3D semiconductor device including: a first level including a single crystal silicon layer and a plurality of first transistors, the plurality of first transistors each including a single crystal channel; a first metal layer overlaying the plurality of first transistors; a second metal layer overlaying the first metal layer; a third metal layer overlaying the second metal layer; a second level is disposed above the third metal layer, where the second level includes a plurality of second transistors; a fourth metal layer disposed above the second level; and a connective path between the fourth metal layer and either the third metal layer or the second metal layer, where the connective path includes a via disposed through the second level, where the via has a diameter of less than 800 nm and greater than 5 nm, and where at least one of the plurality of second transistors includes a metal gate.

A semiconductor device and a method of forming the same, the semiconductor device includes a substrate, a gate structure, a first dielectric layer, a second dielectric layer, a first plug and two metal lines. The substrate has a shallow trench isolation and an active area, and the gate structure is disposed on the substrate to cover a boundary between the active area and the shallow trench isolation. The first dielectric layer is disposed on the substrate, to cover the gate structure, and the first plug is disposed in the first dielectric layer to directly in contact with a conductive layer of the gate structure and the active area. The second dielectric layer is disposed on the first dielectric layer, with the first plug and the gate being entirely covered by the first dielectric layer and the second dielectric layer. The two metal lines are disposed in the second dielectric layer.

A device structure includes transistors on a first level in a first region and a first plurality of capacitors on a second level, above the first level, where a first electrode of the individual ones of the first plurality of capacitors are coupled with a respective transistor. The device structure further includes a second plurality of capacitors on the second level in a second region adjacent the first region, where individual ones of the second plurality of capacitors include a second electrode, a third electrode and an insulator layer therebetween, where the second electrode of the individual ones of the plurality of capacitors are coupled with a first interconnect on a third level above the second level, and where the third electrode of the individual ones of the plurality of capacitors are coupled with a second interconnect.

A semiconductor structure includes a substrate comprising a peripheral region and a memory region defined thereon, a first dielectric layer disposed on the substrate, a second dielectric layer disposed on the first dielectric layer, an opening on the peripheral region of the substrate and having a lower portion through the first dielectric layer and an upper portion through the second dielectric layer, an interconnecting structure disposed on the second dielectric layer and two sides of the opening, a contact structure disposed in the lower portion of the opening, and a spacer covering a top surface of the contact structure, a sidewall of the second dielectric layer, and a sidewall of the interconnecting structure.

A semiconductor structure includes a substrate, a contact structure disposed on the substrate, and two first gate structures disposed on the substrate and at two sides of the first contact structure. The contact structure has a T-shaped cross-sectional profile having a first portion contacting the substrate and a second portion disposed on the first portion. A top surface of the second portion of the contact structure is flush with top surfaces of the two first gate structures.

Present invention is related to a semiconductor device with an improved reliability and a method for the same. A method for fabricating a semiconductor device according to an embodiment of the present invention may comprise: forming a plurality of bit line structures over a substrate; forming line-shaped openings between the bit line structures; forming a stopper structure on edges of the line-shaped openings; filling a line pattern in each of the line-shaped openings; forming a plurality of contact plugs and a plurality of isolation grooves by etching the line patterns; and filling a plug isolation layer in the isolation grooves.

A semiconductor device includes a substrate including a cell area and an interface area surrounding the cell area, the substrate including a device isolation layer defining an active region in the cell area and including an area isolation layer in the interface area, a gate structure extending in the cell area in a first horizontal direction, the gate structure being buried in the substrate and intersecting the active region, a bit line structure intersecting the gate structure and extending in a second horizontal direction intersecting the first horizontal direction, and dummy gate structures extending in the interface area in the first horizontal direction and being spaced apart from one another in the second horizontal direction. The dummy gate structures are buried in the area isolation layer and being spaced apart from the gate structure in the second horizontal direction.

A semiconductor device includes: a substrate; a memory cell region over the substrate; a peripheral region over the substrate, the peripheral region being adjacent to the memory cell region; and a plurality of first and second word-lines extending across the memory cell region and the peripheral region; wherein the plurality of first word-lines and the plurality of second word-lines are arranged alternately with each other; and wherein the length of the first word-line in the peripheral region is longer than the length of the second word-line in the peripheral region.

The present application provides a memory cell, a memory array and a method for preparing the memory cell. The memory cell includes an active area, an isolation structure and a contact enhancement layer. The active area is a surface portion of a semiconductor substrate. A top surface of the active area has a slop part descending toward an edge of the active area within a peripheral region of the active area. The isolation structure is formed in a trench of the semiconductor substrate laterally surrounding the active area. The contact enhancement layer covers the edge of the active area and in lateral contact with the isolation structure. The slope part of the top surface of the active area is covered by the contact enhancement layer, and the contact enhancement layer is formed of a semiconductor material.