Vertical transistors and methods of manufacturing vertical transistors are disclosed. The method can include forming a stack of layers include a first layer stack of a first transistor structure including at least three layers of a conductive material separated by one or more layers of at least one dielectric material. The stack of layers can include a second layer stack of a second transistor structure including at least three layers of a conductive material separated by one or more layers of at least one dielectric material, the second layer stack associated with a second transistor structure. The first and second transistor structures are separated by one or more dielectric materials. The method can include forming a channel opening in the stack. The method includes selectively forming a first channel structure within the channel opening and selectively forming a second channel structure within the channel opening.

Disclosed are semiconductor devices including a double gate metal oxide semiconductor (MOS) transistor and methods for fabricating the same. The double gate MOS transistor includes a first back gate, a second back gate, and a first dielectric layer disposed on the first back gate and on the second back gate. An MX2 material layer is disposed on the first dielectric layer, a second dielectric layer disposed on the MX2 material layer, and a work function metal (WFM) is disposed on the second dielectric layer. A front gate is disposed on the WFM, which fills a space between the first back gate and the second back.

Disclosed are semiconductor devices including a double gate metal oxide semiconductor (MOS) transistor and methods for fabricating the same. The double gate MOS transistor includes a first back gate, a second back gate, and a first dielectric layer disposed on the first back gate and on the second back gate. An MX2 material layer is disposed on the first dielectric layer, a second dielectric layer disposed on the MX2 material layer, and a work function metal (WFM) is disposed on the second dielectric layer. A front gate is disposed on the WFM, which fills a space between the first back gate and the second back.

A device comprises a plurality of 2D semiconductor nanostructures, a gate structure, a source region, and a drain region. The plurality of 2D semiconductor nanostructures extend in a first direction above a substrate and arranged in a second direction substantially perpendicular to the first direction. The gate structure surrounds each of the plurality of 2D semiconductor nanostructures. The source region and the drain region are respectively on opposite sides of the gate structure.

A transistor includes a gate structure, a channel layer underlying the gate structure and comprising a two-dimensional (2D) material, source/drain contacts laterally spaced apart from the gate structure and disposed laterally next to the channel layer, and a spacer laterally interposed between the gate structure and the source/drain contacts. A semiconductor device and a semiconductor structure are also provided.

A semiconductor device having a large storage capacity per unit area is provided. The semiconductor device includes a first insulator including a first opening; a first conductor including a second opening over the first insulator; a second insulator including a third opening over the first conductor; a third insulator provided along a first side surface of the first opening, a second side surface of the second opening, and a third side surface of the third opening; an oxide provided along the first side surface, the second side surface, and the third side surface with the third insulator therebetween; a second conductor provided at the first side surface with the third insulator and the oxide therebetween; and a third conductor provided at the third side surface with the third insulator and the oxide therebetween, the oxide includes a first region in the first opening, a second region in the second opening, and a third region in the third opening, and the second region has higher resistance than the first region and the third region.

Thin film transistors having a spin-on two-dimensional (2D) channel material are described. In an example, an integrated circuit structure includes a first device layer including a first two-dimensional (2D) material layer above a substrate. The first 2D material layer includes molybdenum, sulfur, sodium and carbon. A second device layer including a second 2D material layer is above the substrate. The second 2D material layer includes tungsten, selenium, sodium and carbon.

Thin film transistors having a spin-on two-dimensional (2D) channel material are described. In an example, an integrated circuit structure includes a first device layer including a first two-dimensional (2D) material layer above a substrate. The first 2D material layer includes molybdenum, sulfur, sodium and carbon. A second device layer including a second 2D material layer is above the substrate. The second 2D material layer includes tungsten, selenium, sodium and carbon.

Embodiments provide a transistor structure, a semiconductor structure and a fabrication method thereof. The method for fabricating a transistor structure includes: providing a substrate; forming a channel layer on an upper surface of the substrate, the channel layer including a two-dimensional layered transition metal material layer; forming a source and a drain on two opposite sides of the channel layer, respectively; forming a gate dielectric layer on the upper surface of the substrate, the gate dielectric layer covering the channel layer, the source, and the drain; and forming a gate on an upper surface of the gate dielectric layer, the gate being positioned at least directly above the channel layer.

Thin film transistors having edge-modulated two-dimensional (2D) channel material are described. In an example, an integrated circuit structure includes a device layer including a two-dimensional (2D) material layer above a substrate, the 2D material layer including a center portion and first and second edge portions, the center portion consisting essentially of molybdenum or tungsten and of sulfur or selenium, and the first and second edge portions including molybdenum or tungsten and including tellurium.