A device includes a semiconductor substrate, an interfacial layer, a high-k dielectric layer, a first electrode, and a second electrode. The interfacial layer is over the semiconductor substrate. The high-k dielectric layer is over the interfacial layer. The first electrode is over the high-k dielectric layer. The second electrode is over the interfacial layer. The first electrode laterally surrounds the second electrode in a top view.

The non-volatile memory device includes memory cells including a control gate vertically buried in a semiconductor substrate doped with a first type of dopant and a dielectric interface able to trap electrical charges covering sides of the control gate facing the semiconductor substrate. The device furthermore includes a vertical implanted region of a second type of dopant opposite to the first type located along the sides of the control gate in the semiconductor substrate.

Some embodiments include apparatuses and methods of forming the apparatuses. One of the apparatuses includes a memory cell included in a memory cell string; the memory cell including charge storage structure and channel structure separated from the charge storage structure by a dielectric structure; a first control gate associated with the memory cell and located on a first side of the charge storage structure and a first side of the channel structure; and a second control gate associated with the memory cell and electrically separated from the first control gate, the second control gate located on a second side of the charge storage structure and a second side of the channel structure.

A semiconductor device includes: a fin that is a portion of a semiconductor substrate, protrudes from a main surface of the semiconductor substrate, has a width in a first direction, and extends in a second direction; a control gate electrode that is arranged on the fin via a first gate insulating film and extends in the first direction; and a memory gate electrode that is arranged on the fin via a second gate insulating film and extends in the first direction. Further, a width of the fin in a region in which the memory gate electrode is arranged via the second gate insulating film having a film thickness larger than the first gate insulating film is smaller than a width of the fin in a region in which the control gate electrode is arranged via the first gate insulating film.

A memory cell which is a non-volatile memory cell includes a gate insulating film having a charge storage layer capable of retaining charge and a memory gate electrode formed on the gate insulating film. The charge storage layer includes a first insulating film containing hafnium and silicon and a second insulating film formed on the first insulating film and containing hafnium and silicon. Here, a hafnium concentration of the first insulating film is lower than a hafnium concentration of the second insulating film, and a bandgap of the first insulating film is larger than a bandgap of the second insulating film.

A semiconductor storage device includes a first stacked body including first insulating films and first conductive films that are alternately stacked in a first direction. A first columnar body and a second columnar body extend within the first stacked body in the first direction. A second conductive film is provided above the first stacked body, and extends in a third direction intersecting the first direction and the second direction. A third insulator is adjacent to the second conductive film and extends in the third direction. A third conductive film is adjacent to the third insulator and extends in the third direction. A third columnar body is provided on the first columnar body. A fourth columnar body is provided on the second columnar body. A thickness of a third semiconductor portion in the first direction is greater than a thickness of the second conductive film in the first direction.

A semiconductor device including a memory cell featuring a first gate insulating film over a semiconductor substrate, a control gate electrode over the first gate insulating film, a second gate insulating film over the substrate and a side wall of the control gate electrode, a memory gate electrode over the second gate insulating film arranged adjacent with the control gate electrode through the second gate insulating film, first and second semiconductor regions in the substrate positioned on a control gate electrode side and a memory gate side, respectively, the second gate insulating film featuring a first film over the substrate, a charge storage film over the first film and a third film over the second film, the first film having a first portion between the substrate and memory gate electrode and a thickness greater than that of a second portion between the control gate electrode and the memory gate electrode.

A semiconductor device and a fabrication method thereof are provided. The semiconductor device includes a semiconductor structure, a dielectric layer, a metal-semiconductor compound film and a cover layer. The semiconductor structure has an upper surface and a lateral surface. The dielectric layer encloses the lateral surface of the semiconductor structure and exposes the upper surface of the semiconductor structure. The metal-semiconductor compound film is on the semiconductor structure, wherein the dielectric layer exposes a portion of a surface of the metal-semiconductor compound film. The cover layer encloses the portion of the surface of the metal-semiconductor compound film exposed by the dielectric layer, and exposes the dielectric layer.

The present disclosure relates to an integrated circuit (IC) that includes a high-k metal gate (HKMG) non-volatile memory (NVM) device and that provides small scale and high performance, and a method of formation. In some embodiments, the integrated circuit includes a logic region having a logic device disposed over a substrate and including a first metal gate disposed over a first high-k gate dielectric layer and an embedded memory region disposed adjacent to the logic region. The embedded memory region has a split gate flash memory cell including a select gate and a control gate. The control gate or the select gate is a metal gate separated from the substrate by a second high-k gate dielectric layer. By having HKMG structures in both the logic region and the memory region, IC performance is improved and further scaling becomes possible in emerging technology nodes.

Deterioration in reliability is prevented regarding a semiconductor device. The deterioration is caused when an insulating film for formation of a sidewall is embedded between gate electrodes at the time of forming sidewalls having two kinds of different widths on a substrate. A sidewall-shaped silicon oxide film is formed over each sidewall of a gate electrode of a low breakdown voltage MISFET and a pattern including a control gate electrode and a memory gate electrode. Then, a silicon oxide film beside the gate electrode is removed, and a silicon oxide film is formed on a semiconductor substrate, and then etchback is performed. Accordingly, a sidewall, formed of a silicon nitride film and the silicon oxide film, is formed beside the gate electrode, and a sidewall, formed of the silicon nitride film and the silicon oxide films, is formed beside the pattern.