A semiconductor memory cell includes a floating body region configured to be charged to a level indicative of a state of the memory cell selected from at least first and second states. A first region of the memory cell is in electrical contact with the floating body region. A second region of the memory cell is spaced apart from the first region and is also in electrical contact with the floating body region. A gate is positioned between the first and second regions. A back-bias region is configured to generate impact ionization when the memory cell is in one of the first and second states, and the back-bias region is configured so as not to generate impact ionization when the memory cell is in the other of the first and second states.

A semiconductor memory cell includes a floating body region configured to be charged to a level indicative of a state of the memory cell selected from at least first and second states. A first region of the memory cell is in electrical contact with the floating body region. A second region of the memory cell is spaced apart from the first region and is also in electrical contact with the floating body region. A gate is positioned between the first and second regions. A back-bias region is configured to generate impact ionization when the memory cell is in one of the first and second states, and the back-bias region is configured so as not to generate impact ionization when the memory cell is in the other of the first and second states.

According to an embodiment, in a semiconductor device, a total value of a change amount of chemical potential of the semiconductor device with respect to a expansion direction of a stacking fault and the stacking fault energy of the stacking fault is zero or more.

According to an embodiment, in a semiconductor device, a total value of a change amount of chemical potential of the semiconductor device with respect to a expansion direction of a stacking fault and the stacking fault energy of the stacking fault is zero or more.

Semiconductor memory cells, array and methods of operating are disclosed. In one instance, a memory cell includes a bi-stable floating body transistor and an access device; wherein the bi-stable floating body transistor and the access device are electrically connected in series.

Semiconductor memory cells, array and methods of operating are disclosed. In one instance, a memory cell includes a bi-stable floating body transistor and an access device; wherein the bi-stable floating body transistor and the access device are electrically connected in series.

Structures for a bipolar junction transistor and methods of fabricating a structure for a bipolar junction transistor. The structure includes a first terminal having a first raised semiconductor layer, a second terminal having a second raised semiconductor layer, and a base layer positioned laterally between the first raised semiconductor layer and the second raised semiconductor layer. The structure further includes a spacer positioned laterally positioned between the first raised semiconductor layer and the base layer. The spacer includes a dielectric material and an airgap surrounded by the dielectric material.

Provided are a lateral p-n junction black phosphorus thin film, and a method of manufacturing the same, and specifically, a lateral p-n junction black phosphorus thin film in which a p-type black phosphorus thin film having a p-type semiconductor property and a n-type black phosphorus thin film having a n-type semiconductor property form a lateral junction by modifying some regions on a surface of the black phosphorus thin film through light irradiation with a compound having a specific chemical structure, and a method of manufacturing the same.

Provided are a lateral p-n junction black phosphorus thin film, and a method of manufacturing the same, and specifically, a lateral p-n junction black phosphorus thin film in which a p-type black phosphorus thin film having a p-type semiconductor property and a n-type black phosphorus thin film having a n-type semiconductor property form a lateral junction by modifying some regions on a surface of the black phosphorus thin film through light irradiation with a compound having a specific chemical structure, and a method of manufacturing the same.

The invention relates to heterostructures including a layer of a two-dimensional material placed on a multiferroic layer. An ordered array of differing polarization domains and surface charges in the multiferroic layer produces corresponding domains having differing properties in the two-dimensional material. When the multiferroic layer is ferroelectric, the ferroelectric polarization domains in the layer produce local electric fields that penetrate the two-dimensional material. The local electric fields and surface charges can control the structural phase of the two-dimensional material, which in turn determines whether the two-dimensional material layer is insulating or metallic, has a band gap or no band gap, and whether it is magnetic or non-magnetic. Methods for producing the heterostructures are provided. Devices incorporating the heterostructures are also provided.