A phase change material is formed over a dielectric material. An impurity is introduced into the dielectric to improve the adherence of said dielectric to said phase change material.

Contact structures having I shapes and L shapes, and methods of fabricating I-shaped and L-shaped contact structures, are employed in semiconductor devices and, in certain instances, phase-change nonvolatile memory devices. The I-shaped and L-shaped contact structures produced by these methods exhibit relatively small active areas. The methods that determine the contact structure dimensions employ conventional semiconductor deposit and etch processing steps that are capable of creating readily r...

A phase-change memory device includes memory cells, a memory cell array, a first electrode layer, a word line, and a bit line. The memory cell includes a phase-change layer formed on a semiconductor substrate. The memory cell array has the memory cells arranged in a matrix. The phase change layer includes first regions which contact the semiconductor substrate in units of memory cells and a second region which connects the first regions arranged in a same column. The first electrode layer is for...

A phase change layer may switch between more and less conductive states in response to electrical stimulation. The phase change layer may be positioned over a non-switching ovonic material which acts as an electrode, a resistive heater, and an insulating barrier. The phase change layer may be positioned over a non-switching ovonic material which acts as an electrode, a resistive heater, and a thermal barrier.

Non-volatile, resistance variable memory devices, integrated circuit elements, and methods of forming such devices are provided. According to one embodiment of a method of the invention, a memory device can be fabricated by depositing a chalcogenide material onto a first (lower) electrode, sputter depositing a thin diffusion layer of a conductive material over the chalcogenide material, diffusing metal from the diffusion layer into the chalcogenide material resulting in a metal-comprising resist...

A storage device includes a first electrode, a second electrode facing the first electrode, an inter-electrode material layer provided between the first electrode and the second electrode, and a voltage application unit applying a predetermined voltage to the first and the second electrodes. Furthermore, an oxidation-reduction active material changeable into an electrode reaction inhibition layer by applying voltages to the first and the second electrodes is contained in a region that is covered...

Non-volatile, resistance variable memory devices, integrated circuit elements, and methods of forming such devices are provided. According to one embodiment of a method of the invention, a memory device can be fabricated by depositing a chalcogenide material onto a first (lower) electrode, sputter depositing a thin diffusion layer of a conductive material over the chalcogenide material, diffusing metal from the diffusion layer into the chalcogenide material resulting in a metal-comprising resist...

A phase changeable memory cell is disclosed. According to embodiments of the invention, a phase changeable memory cell is formed that has a reduced contact area with one of the electrodes, compared to previously known phase changeable memory cells. This contact area can be a sidewall of one of the electrodes, or a perimeter edge of a contact opening through the electrode. Thus, when the thickness of the electrode is relatively thin, the contact area between the electrode and the phase changeable...

Non-volatile, resistance variable memory devices, integrated circuit elements, and methods of forming such devices are provided. According to one embodiment of a method of the invention, a memory device can be fabricated by depositing a chalcogenide material onto a first (lower) electrode, sputter depositing a thin diffusion layer of a conductive material over the chalcogenide material, diffusing metal from the diffusion layer into the chalcogenide material resulting in a metal-comprising resist...

Disclosed are a phase-change memory device and its manufacturing method, which can reduce a contact area between a bottom electrode and a phase-change layer, thereby reducing the quantity of current necessary for phase change. The phase-change memory device comprises: a bottom electrode formed on a contact plug; a phase-change layer formed on the bottom electrode and having a shape of a character `.pi.`; and a top electrode formed on the phase-change layer.