Patent application number | Description | Published |
20080310208 | PROCESS FOR ERASING CHALCOGENIDE VARIABLE RESISTANCE MEMORY BITS - A method of erasing a chalcogenide variable resistance memory cell is provided. The chalcogenide variable resistance memory cell includes a p-doped substrate with an n-well and a chalcogenide variable resistance memory element. The method includes the step of applying to the variable resistance memory element a voltage that is less than a fixed voltage of the substrate. The applied voltage induces an erase current to flow from the p-doped substrate through the n-well and through the variable resistance memory element. | 12-18-2008 |
20090078925 | Resistance variable memory device with sputtered metal-chalcogenide region and method of fabrication - A chalcogenide-based programmable conductor memory device and method of forming the device, wherein a chalcogenide glass region is provided with a plurality of alternating tin chalcogenide and metal layers proximate thereto. The method of forming the device comprises sputtering the alternating tin chalcogenide and metal layers. | 03-26-2009 |
20100171088 | RESISTANCE VARIABLE MEMORY DEVICE WITH SPUTTERED METAL-CHALCOGENIDE REGION AND METHOD OF FABRICATION - A chalcogenide-based programmable conductor memory device and method of forming the device, wherein a chalcogenide glass region is provided with a plurality of alternating tin chalcogenide and metal layers proximate thereto. The method of forming the device comprises sputtering the alternating tin chalcogenide and metal layers. | 07-08-2010 |
20100171091 | Memory array for increased bit density and method of forming the same - A memory array having a plurality of resistance variable memory units and method for forming the same are provided. Each memory unit includes a first electrode, a resistance variable material over the first electrode, and a first second-electrode over the resistance variable material. The first second-electrode is associated with the first electrode to define a first memory element. Each memory unit further includes a second second-electrode over the resistance variable material. The second-second electrode is associated with the first electrode to define a second memory element. | 07-08-2010 |
20100178741 | ACCESS TRANSISTOR FOR MEMORY DEVICE - An access transistor for a resistance variable memory element and methods of forming the same are provided. The access transistor has first and second source/drain regions and a channel region vertically stacked over the substrate. The access transistor is associated with at least one resistance variable memory element. | 07-15-2010 |
20100181656 | Methods of eliminating pattern collapse on photoresist patterns - A stabilizing solution for treating photoresist patterns and methods of preventing profile abnormalities, toppling and resist footing are disclosed. The stabilizing solution comprises a non-volatile component, such as non-volatile particles or polymers, which is applied after the photoresist material has been developed. By treating the photoresist with the solution containing a non-volatile component after developing but before drying, the non-volatile component fills the space between adjacent resist patterns and remains on the substrate during drying. The non-volatile component provides structural and mechanical support for the resist to prevent deformation or collapse by liquid surface tension forces. | 07-22-2010 |
20100321992 | PHASE CHANGE MEMORY ELEMENTS USING ENERGY CONVERSION LAYERS, MEMORY ARRAYS AND SYSTEMS INCLUDING SAME, AND METHODS OF MAKING AND USING SAME - A phase change memory element and method of forming the same. The memory element includes a phase change material layer electrically coupled to first and second conductive material layers. A energy conversion layer is formed in association with the phase change material layer, and electrically coupled to a third conductive material layer. An electrically isolating material layer is formed between the phase change material layer and the energy conversion layer. | 12-23-2010 |
20110201148 | PHASE CHANGE CURRENT DENSITY CONTROL STRUCTURE - A phase change memory element and method of forming the same. The memory element includes first and second electrodes. A first layer of phase change material is between the first and second electrodes. A second layer including a metal-chalcogenide material is also between the first and second electrodes and is one of a phase change material and a conductive material. An insulating layer is between the first and second layers. There is at least one opening in the insulating layer providing contact between the first and second layers. | 08-18-2011 |
20120281466 | PHASE CHANGE MEMORY ELEMENTS USING ENERGY CONVERSION LAYERS, MEMORY ARRAYS AND SYSTEMS INCLUDING SAME, AND METHODS OF MAKING AND USING SAME - A phase change memory element and method of forming the same. The memory element includes a phase change material layer electrically coupled to first and second conductive material layers. A energy conversion layer is formed in association with the phase change material layer, and electrically coupled to a third conductive material layer. An electrically isolating material layer is formed between the phase change material layer and the energy conversion layer. | 11-08-2012 |
20130020547 | PHASE CHANGE CURRENT DENSITY CONTROL STRUCTURE - A phase change memory element and method of forming the same. The memory element includes first and second electrodes. A first layer of phase change material is between the first and second electrodes. A second layer including a metal-chalcogenide material is also between the first and second electrodes and is one of a phase change material and a conductive material. An insulating layer is between the first and second layers. There is at least one opening in the insulating layer providing contact between the first and second layers. | 01-24-2013 |
20130248810 | MEMORY ELEMENTS USING SELF-ALIGNED PHASE CHANGE MATERIAL LAYERS AND METHODS OF MANUFACTURING SAME - A memory element and method of forming the same. The memory element includes a substrate supporting a first electrode, a dielectric layer over the first electrode having a via exposing a portion of the first electrode, a phase change material layer formed over sidewalls of the via and contacting the exposed portion of the first electrode, insulating material formed over the phase change material layer and a second electrode formed over the insulating material and contacting the phase change material layer. | 09-26-2013 |
20140021435 | PHASE CHANGE CURRENT DENSITY CONTROL STRUCTURE - A phase change memory element and method of forming the same. The memory element includes first and second electrodes. A first layer of phase change material is between the first and second electrodes. A second layer including a metal-chalcogenide material is also between the first and second electrodes and is one of a phase change material and a conductive material. An insulating layer is between the first and second layers. There is at least one opening in the insulating layer providing contact between the first and second layers. | 01-23-2014 |
20140038425 | METHODS OF ELIMINATING PATTERN COLLAPSE ON PHOTORESIST PATTERNS - A stabilizing solution for treating photoresist patterns and methods of preventing profile abnormalities, toppling and resist footing are disclosed. The stabilizing solution comprises a non-volatile component, such as non-volatile particles or polymers, which is applied after the photoresist material has been developed. By treating the photoresist with the solution containing a non-volatile component after developing but before drying, the non-volatile component fills the space between adjacent resist patterns and remains on the substrate during drying. The non-volatile component provides structural and mechanical support for the resist to prevent deformation or collapse by liquid surface tension forces. | 02-06-2014 |
20140374685 | PHASE CHANGE CURRENT DENSITY CONTROL STRUCTURE - A phase change memory element and method of forming the same. The memory element includes first and second electrodes. A first layer of phase change material is between the first and second electrodes. A second layer including a metal-chalcogenide material is also between the first and second electrodes and is one of a phase change material and a conductive material. An insulating layer is between the first and second layers. There is at least one opening in the insulating layer providing contact between the first and second layers. | 12-25-2014 |