A semiconductor structure and a manufacturing method thereof are provided. The semiconductor structure includes a substrate, a gate structure being provided on a surface of the substrate, and a source region and a drain region being provided in the substrate at two sides of the gate structure, respectively; and a contact located on the substrate, the contact including a first contact located on the substrate and a second contact located on a side of the first contact away from the substrate, in which an area of a bottom surface of the first contact is greater than an area of a top surface of the second contact.

Vertical transport field-effect transistors are formed on active regions wherein the active regions each include a wrap-around metal silicide contact on vertically extending side walls of the active region. Such wrap-around contacts form self-aligned and reliable strapping for SRAM bottom nFET and pFET source/drain regions. Buried contacts of SRAM cells may be used to strap the wrap-around metal silicide contacts with the gates of inverters thereof. Wrap-around metal silicide contacts provide additional contacts for logic FETs and reduce parasitic bottom source/drain resistance.

An integrated circuit includes a substrate, a transistor over the substrate, a first inter-metal dielectric (IMD) layer over the transistor, a metal via in the first IMD layer, a first 2-D material layer cupping an underside of the metal via, a second IMD layer over the metal via, a metal line in the second IMD layer, and a second 2-D material layer cupping an underside of the metal line. The second 2-D material layer span across the metal via and the first 2-D material layer.

An integrated circuit (IC) device includes a conductive region including a first metal on a substrate. An insulating film is on the conductive region. A conductive plug including a second metal passes through the insulating film and extends in a vertical direction. A conductive barrier pattern is between the conductive region and the conductive plug. The conductive barrier pattern has a first surface in contact with the conductive region and a second surface in contact with the conductive plug. A bottom surface and a lower sidewall of the conductive plug are in contact with the conductive barrier pattern, and an upper sidewall of the conductive plug is in contact with the insulating film. The conductive barrier pattern includes a vertical barrier portion between the insulating film and the conductive plug, and the vertical barrier portion has a width tapering along a first direction away from the conductive region.

Embodiments of the present disclosure relates to an integrated circuit including an array of memory cells having the word lines and high-voltage power lines positioned on one side of the transistors and the bit lines and low voltage power lines positioned on the other side of the transistor. The memory cells according to the present disclosure also improve routing efficiency, thus, removing bottleneck of further scaling both SRAM cell.

A semiconductor device includes a substrate having a plurality of active patterns. A plurality of gate electrodes intersects the plurality of active patterns. An active contact is electrically connected to the active patterns. A plurality of vias includes a first regular via and a first dummy via. A plurality of interconnection lines is disposed on the vias. The plurality of interconnection lines includes a first interconnection line disposed on both the first regular via and the first dummy via. The first interconnection line is electrically connected to the active contact through the first regular via. Each of the vias includes a via body portion and a via barrier portion covering a bottom surface and sidewalls of the via body portion. Each of the interconnection lines includes an interconnection line body portion and an interconnection line barrier portion covering a bottom surface and sidewalls of the interconnection line body portion.

A semiconductor device includes a substrate having a plurality of active patterns. A plurality of gate electrodes intersects the plurality of active patterns. An active contact is electrically connected to the active patterns. A plurality of vias includes a first regular via and a first dummy via. A plurality of interconnection lines is disposed on the vias. The plurality of interconnection lines includes a first interconnection line disposed on both the first regular via and the first dummy via. The first interconnection line is electrically connected to the active contact through the first regular via. Each of the vias includes a via body portion and a via barrier portion covering a bottom surface and sidewalls of the via body portion. Each of the interconnection lines includes an interconnection line body portion and an interconnection line barrier portion covering a bottom surface and sidewalls of the interconnection line body portion.

A package substrate according to an embodiment includes a first substrate; and a first chip mounted on the first substrate; wherein the first substrate includes: a first insulating layer including a first region overlapping the first chip in a vertical direction and a second region other than the first region; and a circuit pattern disposed on the first region and the second region of the first insulating layer; wherein the circuit pattern includes: a pad portion including a first portion disposed on an upper surface of the second region of the first insulating layer, a second portion buried in the first region of the first insulating layer, and a third portion including at least a part buried in the first region of the first insulating layer and connecting between the first portion and the second portion; wherein at least a part of the first chip is disposed in the first region of the first insulating layer; wherein the first region of the first insulating layer surrounds a lower surface and a side surface of the first chip, and wherein the first region and the second region of the first insulating layer are a single insulating layer.

A package substrate according to an embodiment includes a first substrate; and a first chip mounted on the first substrate; wherein the first substrate includes: a first insulating layer including a first region overlapping the first chip in a vertical direction and a second region other than the first region; and a circuit pattern disposed on the first region and the second region of the first insulating layer; wherein the circuit pattern includes: a pad portion including a first portion disposed on an upper surface of the second region of the first insulating layer, a second portion buried in the first region of the first insulating layer, and a third portion including at least a part buried in the first region of the first insulating layer and connecting between the first portion and the second portion; wherein at least a part of the first chip is disposed in the first region of the first insulating layer; wherein the first region of the first insulating layer surrounds a lower surface and a side surface of the first chip, and wherein the first region and the second region of the first insulating layer are a single insulating layer.

An integrated circuit includes first and second active regions extending in a first direction, a first gate line extending in a second direction substantially perpendicular to the first direction and crossing the first and second active regions, and a first contact jumper including a first conductive pattern intersecting the first gate line above the first active region and a second conductive pattern extending in the second direction above the first gate line and connected to the first conductive pattern.