Abstract: A method of producing a transistor includes providing a substrate including in order a first electrically conductive material layer, a second electrically conductive material layer, and a third electrically conductive material layer. A resist material layer is deposited over the third electrically conductive material layer. The resist material layer is patterned to expose a portion of the third electrically conductive material layer. Some of the third electrically conductive material layer is removed to expose a portion of the second electrically conductive material layer. The third electrically conductive material layer is caused to overhang the second electrically conductive material layer by removing some of the second electrically conductive material layer. Some of the first electrically conductive material layer is removed.

Abstract: A transistor includes a substrate. An electrically conductive material layer, having a thickness, is positioned on the substrate. The electrically conductive material layer contains a reentrant profile such that one portion of the electrically conductive material overhangs another portion of the electrically conductive material. An electrically insulating material layer, having a thickness, is conformally positioned over the second electrically conductive material layer, the first electrically conductive material layer, and at least a portion of the substrate.

Abstract: Actuating a semiconductor device includes providing a transistor that includes a substrate and a first electrically conductive material layer, including a reentrant profile, positioned on the substrate. An electrically insulating material layer is conformally positioned over the first electrically conductive material layer and at least a portion of the substrate. A semiconductor material layer conforms to and is in contact with the electrically insulating material layer. A second electrically conductive material layer and third electrically conductive material layer are nonconformally positioned over and in contact with a first portion of the semiconductor material layer and a second portion of the semiconductor material layer, respectively.

Abstract: A method of producing a transistor includes providing a substrate including a first electrically conductive material layer. A resist material layer is deposited over the first electrically conductive material layer. The resist material layer is patterned to expose a portion of the first electrically conductive material layer. Some of the first electrically conductive material layer is removed to create a reentrant profile in the first electrically conductive material layer and expose a portion of the substrate. The first electrically conductive material layer and at least a portion of the substrate are conformally coated with an electrically insulating material layer.

Abstract: A method of producing a transistor includes providing a substrate including in order a first electrically conductive material layer and a second electrically conductive material layer. The first electrically conductive material layer has a thickness. A resist material layer is deposited over the second electrically conductive material layer. The resist material layer is patterned to expose a portion of the second electrically conductive material layer. Some of the second electrically conductive material layer is removed to expose a portion of the first electrically conductive material layer. The second electrically conductive material layer is caused to overhang the first electrically conductive material layer by removing some of the first electrically conductive material layer.

Abstract: A method of producing a transistor includes providing a substrate including in order a first electrically conductive material layer and a second electrically conductive material layer. A resist material layer is deposited over the second electrically conductive material layer. The resist material layer is patterned to expose a portion of the second electrically conductive material layer. Some of the second electrically conductive material layer is removed to create a reentrant profile in the second electrically conductive material layer and to expose a portion of the first electrically conductive material layer. The second electrically conductive material layer is caused to overhang the first electrically conductive material layer by removing some of the first electrically conductive material layer.

Abstract: A method of actuating a semiconductor device includes providing a transistor. The transistor includes a substrate. A first electrically conductive material layer is positioned on the substrate. A second electrically conductive material layer is in contact with and positioned on the first electrically conductive material layer. The second electrically conductive material layer includes a reentrant profile. The second electrically conductive material layer also overhangs the first electrically conductive material layer. An electrically insulating material layer is conformally positioned over the second electrically conductive material layer, the first electrically conductive material layer, and at least a portion of the substrate. A semiconductor material layer conforms to and is in contact with the electrically insulating material layer. A third electrically conductive material layer is nonconformally positioned over and in contact with a first portion of the semiconductor material layer.

Abstract: Producing a vertical transistor includes providing a substrate including a gate material layer stack with a reentrant profile. An electrically insulating material layer is deposited over a portion of the gate material layer stack and over a portion of the substrate. A patterned deposition inhibiting material is deposited over the electrically insulating material layer. A semiconductor material layer is deposited over the electrically insulating material layer using a selective area deposition process in which the semiconductor material layer is not deposited over the patterned deposition inhibiting material.

Abstract: A transistor includes a substrate. A first electrically conductive material layer is positioned on the substrate. A second electrically conductive material layer is in contact with and positioned on the first electrically conductive material layer. A third electrically conductive material layer is in contact with and positioned on the second electrically conductive material layer. The third electrically conductive material layer overhangs the second electrically conductive material layer.

Abstract: A method of producing a transistor includes providing a substrate including in order a first electrically conductive material layer and a second electrically conductive material layer. A resist material layer is deposited over the second electrically conductive material layer. The resist material layer is patterned to expose a portion of the second electrically conductive material layer. Some of the second electrically conductive material layer is removed to create a reentrant profile in the second electrically conductive material layer and to expose a portion of the first electrically conductive material layer. The second electrically conductive material layer is caused to overhang the first electrically conductive material layer by removing some of the first electrically conductive material layer.

Abstract: A method of actuating a semiconductor device includes providing a transistor. The transistor includes a substrate. A first electrically conductive material layer is positioned on the substrate. A second electrically conductive material layer is in contact with and positioned on the first electrically conductive material layer. A third electrically conductive material layer is in contact with and positioned on the second electrically conductive material layer. The third electrically conductive material layer overhangs the second electrically conductive material layer. An electrically insulating material layer is conformally positioned over the third electrically conductive material layer, the second electrically conductive material layer, the first electrically conductive material layer, and at least a portion of the substrate. A semiconductor material layer conforms to and is in contact with the electrically insulating material layer.

Abstract: A method of producing a transistor includes providing a substrate including in order a first electrically conductive material layer, a second electrically conductive material layer, and a third electrically conductive material layer. A resist material layer is deposited over the third electrically conductive material layer. The resist material layer is patterned to expose a portion of the third electrically conductive material layer. Some of the third electrically conductive material layer is removed to expose a portion of the second electrically conductive material layer. The third electrically conductive material layer is caused to overhang the second electrically conductive material layer by removing some of the second electrically conductive material layer. Some of the first electrically conductive material layer is removed.

Abstract: A method of actuating a semiconductor device includes providing a transistor. The transistor includes a substrate. A first electrically conductive material layer is positioned on the substrate. A second electrically conductive material layer is in contact with and positioned on the first electrically conductive material layer. The second electrically conductive material layer includes a reentrant profile. The second electrically conductive material layer also overhangs the first electrically conductive material layer. An electrically insulating material layer is conformally positioned over the second electrically conductive material layer, the first electrically conductive material layer, and at least a portion of the substrate. A semiconductor material layer conforms to and is in contact with the electrically insulating material layer. A third electrically conductive material layer is nonconformally positioned over and in contact with a first portion of the semiconductor material layer.

Abstract: A transistor includes a substrate. A first electrically conductive material layer, having a thickness, is positioned on the substrate. A second electrically conductive material layer is in contact with and positioned on the first electrically conductive material layer. The second electrically conductive material layer overhangs the first electrically conductive material layer. An electrically insulating material layer, having a thickness, is conformally positioned over the second electrically conductive material layer, the first electrically conductive material layer, and at least a portion of the substrate. The thickness of the first electrically conductive material layer is greater than the thickness of the electrically insulating material layer.

Abstract: A method of producing a transistor includes providing a substrate including in order a first electrically conductive material layer and a second electrically conductive material layer. The first electrically conductive material layer has a thickness. A resist material layer is deposited over the second electrically conductive material layer. The resist material layer is patterned to expose a portion of the second electrically conductive material layer. Some of the second electrically conductive material layer is removed to expose a portion of the first electrically conductive material layer. The second electrically conductive material layer is caused to overhang the first electrically conductive material layer by removing some of the first electrically conductive material layer.

Abstract: A transistor includes a substrate. A first electrically conductive material layer is positioned on the substrate. A second electrically conductive material layer is in contact with and positioned on the first electrically conductive material layer. The second electrically conductive material layer includes a reentrant profile. The second electrically conductive material layer also overhangs the first electrically conductive material layer.

Abstract: The present invention relates to a process of making a zinc-oxide-based thin film semiconductor, for use in a transistor, comprising thin film deposition onto a substrate comprising providing a plurality of gaseous materials comprising at least first, second, and third gaseous materials, wherein the first gaseous material is a zinc-containing volatile material and the second gaseous material is reactive therewith such that when one of the first or second gaseous materials are on the surface of the substrate the other of the first or second gaseous materials will react to deposit a layer of material on the substrate and wherein the third gaseous material is inert with respect to reacting with the first or second gaseous materials.

Abstract: A transistor includes a substrate, an electrically conductive material layer, and an electrically insulating material layer. At least a portion of one or more of the substrate, the electrically conductive material layer, and the electrically insulating material layer define a reentrant profile.

Abstract: A method of actuating a semiconductor device includes providing a transistor. The transistor includes a substrate. A first electrically conductive material layer, having a thickness, is positioned on the substrate. A second electrically conductive material layer is in contact with and positioned on the first electrically conductive material layer. The second electrically conductive material layer overhangs the first electrically conductive material layer. An electrically insulating material layer, having a thickness, is conformally positioned over the second electrically conductive material layer, the first electrically conductive material layer, and at least a portion of the substrate. The thickness of the first electrically conductive material layer is greater than the thickness of the electrically insulating material layer. A semiconductor material layer conforms to and is in contact with the electrically insulating material layer.

Abstract: A thin film transistor comprises a layer of organic semiconductor material comprising a tetracarboxylic diimide naphthalene-based compound having, attached to each of the imide nitrogen atoms, a substituted or unsubstituted arylalkyl moiety. Such transistors can further comprise spaced apart first and second contact means or electrodes in contact with said material. Further disclosed is a process for fabricating an organic thin-film transistor device, preferably by sublimation deposition onto a substrate, wherein the substrate temperature is no more than 100° C.