Patent application number | Description | Published |
20080286905 | Fin-Type Antifuse - A method of forming an antifuse forms a material layer and then patterns the material layer into a fin. The center portion of the fin is converted into a substantially non-conductive region and the end portions of the fin into conductors. The process of converting the center portion of the fin into an insulator allows a process of heating the fin above a predetermined temperature to convert the insulator into a conductor. Thus, the fin-type structure that can be selectively converted from an insulator into a permanent conductor using a heating process. | 11-20-2008 |
20110001111 | THERMALLY INSULATED PHASE CHANGE MATERIAL CELLS - A memory cell structure and method for forming the same. The method includes forming a pore within a dielectric layer. The pore is formed over the center of an electrically conducting bottom electrode. The method includes depositing a thermally insulating layer along at least one sidewall of the pore. The thermally insulating layer isolates heat from phase change current to the volume of the pore. In one embodiment phase change material is deposited within the pore and the volume of the thermally insulating layer. In another embodiment a pore electrode is formed within the pore and the volume of the thermally insulating layer, with the phase change material being deposited above the pore electrode. The method also includes forming an electrically conducting top electrode above the phase change material. | 01-06-2011 |
20110134676 | RESISTIVE MEMORY DEVICES HAVING A NOT-AND (NAND) STRUCTURE - Resistive memories having a not-and (NAND) structure including a resistive memory cell. The resistive memory cell includes a resistive memory element for storing a resistance value and a memory element access device for controlling access to the resistive memory element. The memory element access device is connected in parallel to the resistive memory element. | 06-09-2011 |
20120037877 | ONE-MASK PHASE CHANGE MEMORY PROCESS INTEGRATION - An example embodiment disclosed is a method for fabricating a phase change memory cell. The method includes forming a non-sublithographic via within an insulating substrate. The insulating substrate is embedded on the same layer as a first metalization layer (Metal | 02-16-2012 |
20120115302 | METHOD TO REDUCE A VIA AREA IN A PHASE CHANGE MEMORY CELL - A memory cell structure and method to form such structure. The method partially comprised of forming a via within an oxidizing layer, over the center of a bottom electrode. The method includes depositing a via spacer along the sidewalls of the via and oxidizing the via spacer. The via spacer being comprised of a material having a Pilling-Bedworth ratio of at least one and one-half and is an insulator when oxidized. The via area is reduced by expansion of the via spacer during the oxidation. Alternatively, the method is partially comprised of forming a via within a first layer, over the center of the bottom electrode. The first layer has a Pilling-Bedworth ratio of at least one and one-half and is an insulator when oxidized. The method also includes oxidizing at least a portion of the sidewalls of the via in the first layer. | 05-10-2012 |
20120126194 | THERMALLY INSULATED PHASE CHANGE MATERIAL MEMORY CELLS - A memory cell structure and method for forming the same. The method includes forming a pore within a dielectric layer. The pore is formed over the center of an electrically conducting bottom electrode. The method includes depositing a thermally insulating layer along at least one sidewall of the pore. The thermally insulating layer isolates heat from phase change current to the volume of the pore. In one embodiment phase change material is deposited within the pore and the volume of the thermally insulating layer. In another embodiment a pore electrode is formed within the pore and the volume of the thermally insulating layer, with the phase change material being deposited above the pore electrode. The method also includes forming an electrically conducting top electrode above the phase change material. | 05-24-2012 |
20120129313 | THERMALLY INSULATED PHASE MATERIAL CELLS - A memory cell structure and method for forming the same. The method includes forming a pore within a dielectric layer. The pore is formed over the center of an electrically conducting bottom electrode. The method includes depositing a thermally insulating layer along at least one sidewall of the pore. The thermally insulating layer isolates heat from phase change current to the volume of the pore. In one embodiment phase change material is deposited within the pore and the volume of the thermally insulating layer. In another embodiment a pore electrode is formed within the pore and the volume of the thermally insulating layer, with the phase change material being deposited above the pore electrode. The method also includes forming an electrically conducting top electrode above the phase change material. | 05-24-2012 |
20140166967 | SMALL FOOTPRINT PHASE CHANGE MEMORY CELL - An example embodiment disclosed is a phase change memory cell in a semiconductor wafer. The semiconductor wafer includes a first metalization layer (Metal 1). The phase change memory cell includes an insulating substrate defining a non-sublithographic via. The non-sublithographic via is located on the first metalization layer and includes a bottom and a sidewall. Intermediate insulating material is positioned below the insulating substrate. The intermediate insulating material defines a sublithographic aperture passing through the bottom of the non-sublithographic via. A bottom electrode is positioned within the sublithographic aperture, and is composed of conductive non-phase change material. The non-sublithographic via includes phase change material positioned within. The phase change material is electrically coupled to the bottom electrode. A liner is positioned along the sidewall of the non-sublithographic via. The liner is electrically coupled to the phase change material and is composed of the conductive non-phase change material. | 06-19-2014 |