Patent application number | Description | Published |
20100009531 | METHODS OF FORMING A CONTACT STRUCTURE - In a method of forming a contact structure, a first insulation layer including a first contact hole is formed on a substrate. A metal layer including tungsten is formed to fill the first contact hole. A planarization process is performed on the metal layer until the first insulation layer is exposed to form a first contact. A second contact is grown from the first contact. The second contact is formed without performing a photolithography process and an etching process to prevent misalignments. | 01-14-2010 |
20100108972 | NON-VOLATILE SEMICONDUCTOR MEMORY DEVICES - A non-volatile semiconductor memory device includes a lower electrode, an upper electrode, a resistive layer pattern between the lower electrode and the upper electrode, and a filament seed embedded in the resistive layer pattern. The filament seed includes at least one of a carbon nanotube, a nanowire and a nanoparticle. | 05-06-2010 |
20100208508 | Multi-level nonvolatile memory devices using variable resistive elements - Multi-level nonvolatile memory devices using variable resistive elements, the multi-level nonvolatile memory devices including a word line, a bit line, and a multi-level memory cell coupled between the word line and the bit line, the multi-level memory cell having first resistance level and a second resistance level higher than the first resistance level when the first and second write biases having the same polarity are applied thereto, and a third resistance level and a fourth resistance level ranging between the first and second resistance levels, when third and fourth write biases having different polarities from each other are applied thereto. | 08-19-2010 |
20100289084 | SEMICONDUCTOR MEMORY DEVICE - Provided is a semiconductor memory device. The semiconductor memory device may include a local bitline extending in a direction substantially vertical to an upper surface of a semiconductor substrate and a local wordline intersecting the local bitline. The local bitline is electrically connected to a bitline channel pillar penetrating a gate of a bitline transistor, and the local wordline is electrically connected to a wordline channel pillar penetrating a gate of a wordline transistor. | 11-18-2010 |
20110032747 | VARIABLE RESISTANCE MEMORY DEVICES AND METHODS OF PROGRAMMING VARIABLE RESISTANCE MEMORY DEVICES - A variable resistance memory device includes a variable resistance memory cell, and a by-pass circuit configured to electrically by-pass a programming pulse supplied to the variable resistance memory cell after a resistive state of the variable resistance memory cell has changed in response to the programming pulse. | 02-10-2011 |
20120142159 | METHOD FOR FABRICATING SEMICONDUCTOR DEVICE - Methods for fabricating a semiconductor device are provided wherein, in an embodiment, the method includes the steps of forming a gate electrode on a semiconductor substrate, forming a trench by recessing the semiconductor substrate in the vicinity of the gate electrode, doping an anti-diffusion ion into a portion of the semiconductor substrate in the trench, and growing an impurity-doped epitaxial layer on the semiconductor substrate doped with the anti-diffusion ion. | 06-07-2012 |
20120299154 | MANUFACTURING METHOD FOR SEMICONDUCTOR DEBICE - A semiconductor device having an improved negative bias temperature instability lifetime characteristic is manufactured by forming a first insulating layer on a substrate, performing a first nitridation on the first insulating layer to form a second insulating layer, and sequentially performing a first and second anneal on the second insulating layer to form a third insulating layer, wherein the second anneal is performed at a higher temperature and with a different gas than the first anneal. A second nitridation is performed on the third insulating layer to form a fourth insulating layer, and a sequential third and fourth anneal on the fourth insulating layer forms a fifth insulating layer. The third anneal is performed at a higher temperature than the first anneal, and the fourth anneal is performed at a higher temperature than the second anneal and with a different gas than the third anneal. | 11-29-2012 |
20120306004 | SEMICONDUCTOR MEMORY DEVICE - Provided is a semiconductor memory device. The semiconductor memory device may include a local bitline extending in a direction substantially vertical to an upper surface of a semiconductor substrate and a local wordline intersecting the local bitline. The local bitline is electrically connected to a bitline channel pillar penetrating a gate of a bitline transistor, and the local wordline is electrically connected to a wordline channel pillar penetrating a gate of a wordline transistor. | 12-06-2012 |
Patent application number | Description | Published |
20090065760 | RESISTIVE MEMORY DEVICES AND METHODS OF FORMING RESISTIVE MEMORY DEVICES - Methods of forming a resistive memory device include forming an insulation layer on a semiconductor substrate including a conductive pattern, forming a contact hole in the insulation layer to expose the conductive pattern, forming a lower electrode in the contact hole, forming a variable resistive oxide layer in the contact hole on the lower electrode, forming a middle electrode in the contact hole on the variable resistive oxide layer, forming a buffer oxide layer on the middle electrode and the insulation layer, and forming an upper electrode on the buffer oxide layer. Related resistive memory devices are also disclosed. | 03-12-2009 |
20090212273 | Semiconductor Devices Having Resistive Memory Elements - Provided is a semiconductor device including a resistive memory element. The semiconductor device includes a substrate and the resistive memory element disposed on the substrate. The resistive memory element has resistance states of a plurality of levels according to generation and dissipation of at least one platinum bridge therein. | 08-27-2009 |
20090230512 | Nonvolatile Memory Devices that Use Resistance Materials and Internal Electrodes, and Related Methods and Processing Systems - A nonvolatile memory device, a method of fabricating the nonvolatile memory device and a processing system including the nonvolatile memory device. The nonvolatile memory device may include a plurality of internal electrodes that extend in a direction substantially perpendicular to a face of a substrate, a plurality of first external electrodes that extend substantially in parallel with the face of the substrate, and a plurality of second external electrodes that also extend substantially in parallel with the face of the substrate. Each first external electrode is on a first side of a respective one of the internal electrodes, and each second external electrode is on a second side of a respective one of the internal electrodes. These devices also include a plurality of variable resistors that contact the internal electrodes, the first external electrodes and the second external electrodes. | 09-17-2009 |
20100233849 | Methods of Forming Resistive Memory Devices - Methods of forming a resistive memory device include forming an insulation layer on a semiconductor substrate including a conductive pattern, forming a contact hole in the insulation layer to expose the conductive pattern, forming a lower electrode in the contact hole, forming a variable resistive oxide layer in the contact hole on the lower electrode, forming a middle electrode in the contact hole on the variable resistive oxide layer, forming a buffer oxide layer on the middle electrode and the insulation layer, and forming an upper electrode on the buffer oxide layer. Related resistive memory devices are also disclosed. | 09-16-2010 |
20110204315 | Nonvolatile Memory Devices that Use Resistance Materials and Internal Electrodes, and Related Methods and Processing Systems - A nonvolatile memory device, a method of fabricating the nonvolatile memory device and a processing system including the nonvolatile memory device. The nonvolatile memory device may include a plurality of internal electrodes that extend in a direction substantially perpendicular to a face of a substrate, a plurality of first external electrodes that extend substantially in parallel with the face of the substrate, and a plurality of second external electrodes that also extend substantially in parallel with the face of the substrate. Each first external electrode is on a first side of a respective one of the internal electrodes, and each second external electrode is on a second side of a respective one of the internal electrodes. These devices also include a plurality of variable resistors that contact the internal electrodes, the first external electrodes and the second external electrodes. | 08-25-2011 |
20130043453 | Nonvolatile Memory Devices that Use Resistance Materials and Internal Electrodes - A nonvolatile memory device, a method of fabricating the nonvolatile memory device and a processing system including the nonvolatile memory device. The nonvolatile memory device may include a plurality of internal electrodes that extend in a direction substantially perpendicular to a face of a substrate, a plurality of first external electrodes that extend substantially in parallel with the face of the substrate, and a plurality of second external electrodes that also extend substantially in parallel with the face of the substrate. Each first external electrode is on a first side of a respective one of the internal electrodes, and each second external electrode is on a second side of a respective one of the internal electrodes. These devices also include a plurality of variable resistors that contact the internal electrodes, the first external electrodes and the second external electrodes. | 02-21-2013 |