A phase-change memory may have a tapered lower electrode coated with an insulator. The coated, tapered electrode acts as a mask for a self-aligned trench etch to electrically separate adjacent wordlines. In some embodiments, the tapered lower electrode may be formed over a plurality of doped regions, and isotropic etching may be used to taper the electrode as well as part of the underlying doped regions.
A storage cell that may be a memory cell, and integrated circuit (IC) chip including an array of the memory cells and a method of forming the IC. Each storage cell is formed between a top an bottom electrode. Each cell includes a phase change layer that may be a chalcogenide and in particular a germanium (Ge), antimony (Sb), tellurium (Te) or GST layer. The cell also includes a stylus with the apex of the stylus contacting the GST layer. The apex may penetrate the GST layer
A memory device comprising a access circuits, an electrode layer over the access circuits, an array of phase change memory bridges over the electrode layer, and a plurality of bit lines over the array of phase change memory bridges. The electrode layer includes electrode pairs. Electrode pairs include a first electrode having a top side, a second electrode having a top side and an insulating member between the first electrode and the second electrode. A bridge of memory material crosses the insulating member, and defines an inter-electrode path between the first and second electrodes across the insulating member.
The invention relates to a novel memory cell structure and process to fabricate chalcogenide phase change memory. More particularly, it produces a small cross-sectional area of a chalcogenide-electrode contact part of the phase change memory, which affects the current/power requirement of the chalcogenide memory. Particular aspects of the present invention are described in the claims, specification and drawings.
A memory device comprising a first electrode having a top side, a second electrode having a top side and an insulating member between the first electrode and the second electrode. The insulating member has a thickness between the first and second electrodes near the top side of the first electrode and the top side of the second electrode. A bridge of memory material crosses the insulating member, and defines an inter-electrode path between the first and second electrodes across the insulating member. An array of such memory cells is provided. In the array, a plurality of electrode members and insulating members therebetween comprise an electrode layer on an integrated circuit. The bridges of memory material have sub-lithographic dimensions.
