3D semiconductor device including: a first level including first single-crystal transistors; a plurality of memory control circuits formed from at least a portion of the first single-crystal transistors; a first metal layer disposed atop the first single-crystal transistors; a second metal layer disposed atop the first metal layer, a second level disposed atop the second metal layer includes second transistors and a memory array of first memory cells, a third level including second memory cells which include some third transistors, which themselves include a metal gate and is disposed above the second level; a third metal layer disposed above the third level; a fourth metal layer disposed above the third metal layer, a connective path from the third metal layer to the second metal layer with a thru second level via of a diameter less than 800 nm which also passes thru the memory array, different write voltages for different dies.

In some implementations, one or more semiconductor processing tools may deposit a first dielectric layer on a substrate of a semiconductor device. The one or more semiconductor processing tools may deposit a floating gate on the first dielectric layer. The one or more semiconductor processing tools may deposit a second dielectric layer on the floating gate and on the substrate of the semiconductor device. The one or more semiconductor processing tools may deposit a first control gate on a first portion of the second dielectric layer. The one or more semiconductor processing tools may deposit a second control gate on a second portion of the second dielectric layer, wherein a third portion of the second dielectric layer is between the first control gate and the floating gate and between the second control gate and the floating gate.

A semiconductor device includes: a semiconductor substrate; a transistor formed on the semiconductor substrate; a first insulating layer adjacent to the transistor in a first direction along a main surface of the semiconductor substrate, the first insulating layer being formed toward an inside of the semiconductor substrate; a first conductive layer connected to a gate of the transistor, a part of the first conductive layer being opposed to the first insulating layer; a second insulating layer disposed between the first insulating layer and the first conductive layer; and a first semiconductor layer disposed between the second insulating layer and the first conductive layer.

In some implementations, one or more semiconductor processing tools may form a first terminal of a semiconductor device by depositing a tunneling oxide layer on a first portion of a body of the semiconductor device, depositing a first volume of polysilicon-based material on the tunneling oxide layer, and depositing a first dielectric layer on an upper surface and a second dielectric layer on a side surface of the first volume of polysilicon-based material. The one or more semiconductor processing tools may form a second terminal of the semiconductor device by depositing a second volume of polysilicon-based material on a second portion of the body of the semiconductor device. A side surface of the second volume of polysilicon-based material is adjacent to the second dielectric layer.

In some implementations, one or more semiconductor processing tools may form a first terminal of a semiconductor device by depositing a tunneling oxide layer on a first portion of a body of the semiconductor device, depositing a first volume of polysilicon-based material on the tunneling oxide layer, and depositing a first dielectric layer on an upper surface and a second dielectric layer on a side surface of the first volume of polysilicon-based material. The one or more semiconductor processing tools may form a second terminal of the semiconductor device by depositing a second volume of polysilicon-based material on a second portion of the body of the semiconductor device. A side surface of the second volume of polysilicon-based material is adjacent to the second dielectric layer.

According to the present embodiment, a semiconductor device includes a semiconductor substrate, a memory transistor, and a MOS transistor. The memory transistor includes at least a first silicon dioxide film and a first gate electrode positioned on the semiconductor substrate in order. The MOS transistor includes a second silicon dioxide film and a second gate electrode positioned on the semiconductor substrate in order. Any bird's beak is not generated in at least either the first silicon dioxide film or the first gate electrode of the memory transistor.

A power device includes a substrate, an ion well in the substrate, a body region in the ion well, a source doped region in the body region, a drain doped region in the ion well, and gates on the substrate between the source doped region and the drain doped region. The gates include a first gate adjacent to the source doped region, a second gate adjacent to the drain doped region, and a stacked gate structure between the first gate and the second gate.

A capacitor-less semiconductor memory device and a method for fabricating the same are provided. The semiconductor memory device includes a first metal-oxide semiconductor film, a second metal-oxide semiconductor film spaced apart from the first metal-oxide semiconductor film, a first gate electrode intersecting the first metal-oxide semiconductor film and the second metal-oxide semiconductor film, a first gate dielectric film interposed between the first metal-oxide semiconductor film and the first gate electrode, a charge storage film in the first gate dielectric film, the charge storage film extending along at least a portion of the first metal-oxide semiconductor film and connected to the second metal-oxide semiconductor film, a second gate electrode spaced apart from the first gate electrode and intersecting the second metal-oxide semiconductor film, and a second gate dielectric film interposed between the second metal-oxide semiconductor film and the second gate electrode.

An integrated circuit (IC) including Flash memory and CMOS logic circuitry and a method of fabrication thereof is disclosed. The IC comprises a substrate including a first region and a second region, where a Flash memory cell gate stack is formed in the first region, a first transistor is formed in the first region and operable at a first voltage level, the first transistor including a gate formed over a first gate oxide layer exclusive of nitridation, and one or more sets of second transistors are formed in the second region, each set operable at a corresponding second voltage level different than the first voltage level and including a corresponding second gate oxide layer having nitridation.

Example embodiments relate to nonvolatile memory devices using a 2D material, and methods of manufacturing the nonvolatile memory device. The nonvolatile memory device includes a channel layer formed on a substrate, a gate stack that includes a gate electrode, source and drain electrodes. The channel layer has a threshold voltage greater than that of a graphene layer, and the gate stack includes a 2D material floating gate that is not in contact with the channel layer. The channel layer includes first and second material layers and a first barrier layer disposed between the first and second material layers, and the first and second material layers may contact the first barrier layer.