Abstract:
A semiconductor device including stacked structures. The stacked structures include at least two chalcogenide materials or alternating dielectric materials and conductive materials. A liner including alucone is formed on sidewalls of the stacked structures. Methods of forming the semiconductor device are also disclosed.
Abstract:
A semiconductor structure includes a plurality of stack structures overlying a substrate. Each stack structure includes a first chalcogenide material over a conductive material overlying the substrate, an electrode over the first chalcogenide material, a second chalcogenide material over the electrode, a liner on sidewalls of at least one of the first chalcogenide material or the second chalcogenide material, and a dielectric material over and in contact with sidewalls of the electrode and in contact with the liner. Related semiconductor devices and systems, methods of forming the semiconductor structure, semiconductor device, and systems, and methods of forming the liner in situ are disclosed.
Abstract:
A semiconductor device including stacked structures. The stacked structures include at least two chalcogenide materials or alternating dielectric materials and conductive materials. A liner including alucone is formed on sidewalls of the stacked structures. Methods of forming the semiconductor device are also disclosed.
Abstract:
A semiconductor device including stacked structures. The stacked structures include at least two chalcogenide materials or alternating dielectric materials and conductive materials. A liner including alucone is formed on sidewalls of the stacked structures. Methods of forming the semiconductor device are also disclosed.
Abstract:
A semiconductor device including stacked structures. The stacked structures include at least two chalcogenide materials or alternating dielectric materials and conductive materials. A liner including alucone is formed on sidewalls of the stacked structures. Methods of forming the semiconductor device are also disclosed.
Abstract:
Semiconductor structures that include bodies of a semiconductor material spaced apart from an underlying substrate. The bodies may be physically separated from the substrate by at least one of a dielectric material, an open volume and a conductive material. The bodies may be electrically coupled by one or more conductive structures, which may be used as an interconnect structure to electrically couple components of memory devices. By providing isolation between the bodies, the semiconductor structure provides the properties of a conventional SOI substrate (e.g., high speed, low power, increased device density and isolation) while substantially reducing fabrication acts and costs associated with such SOI substrates. Additionally, the semiconductor structures of the present disclosure provide reduced parasitic coupling and current leakage due to the isolation of the bodies by the intervening dielectric material.
Abstract:
A semiconductor structure includes a plurality of stack structures overlying a substrate. Each stack structure includes a first chalcogenide material over a conductive material overlying the substrate, an electrode over the first chalcogenide material, a second chalcogenide material over the electrode, a liner on sidewalls of at least one of the first chalcogenide material or the second chalcogenide material, and a dielectric material over and in contact with sidewalls of the electrode and in contact with the liner. Related semiconductor devices and systems, methods of forming the semiconductor structure, semiconductor device, and systems, and methods of forming the liner in situ are disclosed.
Abstract:
A semiconductor structure includes a plurality of stack structures overlying a substrate. Each stack structure includes a first chalcogenide material over a conductive material overlying the substrate, an electrode over the first chalcogenide material, a second chalcogenide material over the electrode, a liner on sidewalls of at least one of the first chalcogenide material or the second chalcogenide material, and a dielectric material over and in contact with sidewalls of the electrode and in contact with the liner. Related semiconductor devices and systems, methods of forming the semiconductor structure, semiconductor device, and systems, and methods of forming the liner in situ are disclosed.
Abstract:
A semiconductor device including stacked structures. The stacked structures include at least two chalcogenide materials or alternating dielectric materials and conductive materials. A liner including alucone is formed on sidewalls of the stacked structures. Methods of forming the semiconductor device are also disclosed.
Abstract:
A semiconductor device including stacked structures. The stacked structures include at least two chalcogenide materials or alternating dielectric materials and conductive materials. A liner including alucone is formed on sidewalls of the stacked structures. Methods of forming the semiconductor device are also disclosed.