Patent application number | Description | Published |
20080258128 | PHASE-CHANGEABLE MEMORY DEVICES - A phase-changeable memory device includes a substrate having a contact region on an upper surface thereof. An insulating interlayer on the substrate has an opening therein, and a lower electrode is formed in the opening. The lower electrode has a nitrided surface portion and is in electrical contact with the contact region of the substrate. A phase-changeable material layer pattern is on the lower electrode, and an upper electrode is on the phase-changeable material layer pattern. The insulating interlayer may have a nitrided surface portion and the phase-changeable material layer may be at least partially on the nitrided surface portion of the insulating interlayer. Methods of forming phase-changeable memory devices are also disclosed. | 10-23-2008 |
20090004773 | METHODS OF FABRICATING MULTI-LAYER PHASE-CHANGEABLE MEMORY DEVICES - A phase-changeable memory device includes a phase-changeable material pattern and first and second electrodes electrically connected to the phase-changeable material pattern. The first and second electrodes are configured to provide an electrical signal to the phase-changeable material pattern. The phase-changeable material pattern includes a first phase-changeable material layer and a second phase-changeable material layer. The first and second phase-changeable material patterns have different chemical, physical, and/or electrical characteristics. For example, the second phase-changeable material layer may have a greater resistivity than the first phase-changeable material layer. For instance, the first phase-changeable material layer may include nitrogen at a first concentration, and the second phase-changeable material layer may include nitrogen at a second concentration that is greater than the first concentration. Related devices and fabrication methods are also discussed. | 01-01-2009 |
20090014777 | Flash Memory Devices and Methods of Manufacturing the Same - Provided are flash memory devices. Embodiments of such devices may include a tunnel insulator formed on a substrate, a charge-storage layer formed on the tunnel insulator, a lower buffer layer formed on the charge-storage layer, a blocking layer formed on the lower buffer layer, and a first gate electrode formed on the blocking layer. Such devices may include second gate electrode formed on the first gate electrode, such that the lower buffer layer includes a silicon-free insulator, the blocking layer includes oxides or ternary lanthanum compounds, and | 01-15-2009 |
20090101881 | SEMICONDUCTOR DEVICES HAVING PHASE CHANGE MEMORY CELLS, ELECTRONIC SYSTEMS EMPLOYING THE SAME AND METHODS OF FABRICATING THE SAME - In one embodiment, a phase-change memory device has an oxidation barrier layer to protect against memory cell contamination or oxidation and a method of manufacturing the same. In one embodiment, a semiconductor memory device comprises a molding layer overlying a semiconductor substrate. The molding layer has a protrusion portion vertically extending from a top surface thereof. The device further includes a phase-changeable material pattern adjacent the protrusion portion and a lower electrode electrically connected to the phase-changeable material pattern. | 04-23-2009 |
20100019216 | MULTI-LAYER PHASE-CHANGEABLE MEMORY DEVICES - A phase-changeable memory device includes a phase-changeable material pattern and first and second electrodes electrically connected to the phase-changeable material pattern. The first and second electrodes are configured to provide an electrical signal to the phase-changeable material pattern. The phase-changeable material pattern includes a first phase-changeable material layer and a second phase-changeable material layer. The first and second phase-changeable material patterns have different chemical, physical, and/or electrical characteristics. For example, the second phase-changeable material layer may have a greater resistivity than the first phase-changeable material layer. For instance, the first phase-changeable material layer may include nitrogen at a first concentration, and the second phase-changeable material layer may include nitrogen at a second concentration that is greater than the first concentration. Related devices and fabrication methods are also discussed. | 01-28-2010 |
20100144087 | METHODS OF FORMING PHASE-CHANGEABLE MEMORY DEVICES INCLUDING AN ADIABATIC LAYER - Phase-changeable memory devices include a lower electrode electrically connected to an impurity region of a transistor in a substrate and a programming layer pattern including a first phase-changeable material on the lower electrode. An adiabatic layer pattern including a material having a lower thermal conductivity than the first phase-changeable material is on the programming layer pattern and an upper electrode is on the adiabatic layer pattern. | 06-10-2010 |
20100197076 | METHODS FOR MANUFACTURING A PHASE-CHANGE MEMORY DEVICE - In a method of forming a chalcogenide compound target, a first powder including germanium carbide or germanium is prepared, and a second powder including antimony carbide or antimony is prepared. A third powder including tellurium carbide or tellurium is prepared. A powder mixture is formed by mixing the first to the third powders. After a shaped is formed body by molding the powder mixture. The chalcogenide compound target is obtained by sintering the powder mixture. The chalcogenide compound target may include a chalcogenide compound that contains carbon and metal, or carbon, metal and nitrogen considering contents of carbon, metal and nitrogen, so that a phase-change material layer formed using the chalcogenide compound target may stable phase transition, enhanced crystallized temperature and increased resistance. A phase-change memory device including the phase-change material layer may have reduced set resistance and driving current while improving durability and sensing margin. | 08-05-2010 |
20100221879 | Methods of Manufacturing Phase-Changeable Memory Devices - A phase-changeable memory device includes a substrate having a contact region on an upper surface thereof. An insulating interlayer on the substrate has an opening therein, and a lower electrode is formed in the opening. The lower electrode has a nitrided surface portion and is in electrical contact with the contact region of the substrate. A phase-changeable material layer pattern is on the lower electrode, and an upper electrode is on the phase-changeable material layer pattern. The insulating interlayer may have a nitrided surface portion and the phase-changeable material layer may be at least partially on the nitrided surface portion of the insulating interlayer. Methods of forming phase-changeable memory devices are also disclosed. | 09-02-2010 |
20120032135 | Phase-Change Memory Units and Phase-Change Memory Devices Using the Same - A phase-change material layer is formed on the lower electrode using a chalcogenide compound doped with carbon, or carbon and nitrogen. A phase-change material layer is obtained by doping a stabilizing metal into the preliminary phase-change material layer. An upper electrode is formed on the phase-change material layer. Since the phase-change material layer may have improved electrical characteristics, stability of phase transition and thermal stability, the phase-change memory unit may have reduced set resistance, enhanced durability, improved reliability, increased sensing margin, reduced driving current, etc. | 02-09-2012 |
20120142161 | METHODS FOR MANUFACTURING A PHASE-CHANGE MEMORY DEVICE - A method of manufacturing a phase-change memory device comprises forming a contact region on a substrate, forming a lower electrode electrically connected to the contact region, forming a phase-change material layer on the lower electrode using a chalcogenide compound target including carbon and metal, or carbon, nitrogen and metal, and forming an upper electrode on the phase-change material layer. | 06-07-2012 |
20130147048 | INTEGRATED CIRCUIT DEVICES INCLUDING ELECTRODE SUPPORT STRUCTURES AND METHODS OF FABRICATING THE SAME - A semiconductor device includes a plurality of electrode structures perpendicularly extending on a substrate, and at least one support unit extending between the plurality of electrode structures. The support unit includes at least one support layer including a noncrystalline metal oxide contacting a part of the plurality of electrode structures. Related devices and fabrication methods are also discussed. | 06-13-2013 |