A semiconductor device includes a first and a second switching element, a first and a second conductive member, and a capacitor. The first switching element has a first element obverse surface and a first element reverse surface facing away from each other in a first direction. The second switching element has a second element obverse surface and a second element reverse surface facing away from each other in the first direction. The first and second conductive members are spaced apart in a second direction orthogonal to the first direction. The capacitor has a first and a second connection terminal. The first and second switching elements are connected in series, forming a bridge. The first and second connection terminals are electrically connected to opposite ends of the bridge. The capacitor and the first switching element are on the first conductive member, the second switching element on the second conductive member.

Provided is a single crystal diamond having a lowered dislocation density. The single crystal diamond (10) is provided with single crystal diamond layers (2, 3). One single crystal diamond layer (2) is formed on a diamond substrate (1) and contains point defects. The other single crystal diamond layer (3) is grown on the single crystal diamond layer (2). The single crystal diamond layers (2, 3) have a lower dislocation density than the diamond substrate.

Provided is a single crystal diamond having a lowered dislocation density. The single crystal diamond (10) is provided with single crystal diamond layers (2, 3). One single crystal diamond layer (2) is formed on a diamond substrate (1) and contains point defects. The other single crystal diamond layer (3) is grown on the single crystal diamond layer (2). The single crystal diamond layers (2, 3) have a lower dislocation density than the diamond substrate.

A film having a plurality of lighting devices thereon is transferred between a film supplying roll and a film collecting roll, and an organic light emitting layer and a second electrode are formed on the film being transferred from a deposition unit. An aging unit is provided on a rear end of the deposition unit, and applies an aging voltage to the film transferred after the organic light emitting layer is deposited by the deposition unit, thereby aging the organic light emitting layer.

A method of restricting diffusion of miscible materials across a barrier, including, forming a 2-dimensional material on a substrate surface, wherein the 2-dimensional material includes one or more defects through which a portion of the substrate surface is exposed, forming a plug selectively on the exposed substrate surface, and forming a cover layer on the plug and 2-dimensional material, wherein the cover layer material is miscible in the substrate material.

A method of restricting diffusion of miscible materials across a barrier, including, forming a 2-dimensional material on a substrate surface, wherein the 2-dimensional material includes one or more defects through which a portion of the substrate surface is exposed, forming a plug selectively on the exposed substrate surface, and forming a cover layer on the plug and 2-dimensional material, wherein the cover layer material is miscible in the substrate material.

A method of restricting diffusion of miscible materials across a barrier, including, forming a 2-dimensional material on a substrate surface, wherein the 2-dimensional material includes one or more defects through which a portion of the substrate surface is exposed, forming a plug selectively on the exposed substrate surface, and forming a cover layer on the plug and 2-dimensional material, wherein the cover layer material is miscible in the substrate material.

An integrated circuit device comprising a varactor comprising a first conductive contact; a second conductive contact; and a thin film transistor (TFT) channel material coupled between the first conductive contact and the second conductive contact.

In accordance with an example embodiment of the present invention, a device comprising one or more porous graphene layers, the or each graphene porous layer comprising a multiplicity of pores. The device may form at least part of a flexible and/or stretchable, and or transparent electronic device.

A film having a plurality of lighting devices thereon is transferred between a film supplying roll and a film collecting roll, and an organic light emitting layer and a second electrode are formed on the film being transferred from a deposition unit. An aging unit is provided on a rear end of the deposition unit, and applies an aging voltage to the film transferred after the organic light emitting layer is deposited by the deposition unit, thereby aging the organic light emitting layer.