Patent application number | Description | Published |
20080197336 | Nonvolatile memory devices and methods of forming the same - A nonvolatile memory device includes a bottom electrode on a semiconductor substrate, a data storage layer on the bottom electrode, the data storage layer including a transition metal oxide, and a switching layer provided on a top surface and/or a bottom surface of the data storage layer, wherein a bond energy of material included in the switching layer and oxygen is more than a bond energy of a transition metal in the transition metal oxide and oxygen. | 08-21-2008 |
20080237693 | Storage of non-volatile memory device and method of forming the same - There is provided a storage of a non-volatile memory device and a method of forming the same. The storage of example embodiments may include a bottom electrode, a first tunneling insulating layer on the bottom electrode, a middle electrode on the first tunneling insulating layer, a second tunneling insulating layer on the middle electrode, and a top electrode on the second tunneling insulating layer. The first and second tunneling insulating layers may be formed of metal oxide having a thickness from about several Å to about several tens Å and a storage may be formed to have a width of about several tens nm. Therefore, a multi bit storage, increased integration, increased operation speed and decreased power consumption may be realized. | 10-02-2008 |
20090206427 | MAGNETIC MEMORY DEVICE AND METHOD OF FABRICATING THE SAME - A magnetic memory device and a method of fabricating the same. The magnetic memory device includes a free layer, a write element, and a read element. The write element changes the magnetization direction of the free layer, and the read element senses the magnetization direction of the free layer. Herein, the write element includes a current confinement layer having a width smaller than the minimum width of the free layer to locally increase the density of a current flowing through the write element. | 08-20-2009 |
20100213558 | Magnetic Memory Device - A magnetic memory device is provided. The magnetic memory device includes an invariable pinning pattern and a variable pinning pattern on a substrate. A tunnel barrier pattern is interposed between the invariable pinning pattern and the variable pinning pattern, and the pinned pattern is interposed between the invariable pinning pattern and the tunnel barrier pattern. A storage free pattern is interposed between the tunnel barrier pattern and the variable pinning pattern, and a guide free pattern is interposed between the storage free pattern and the variable pinning pattern. A free reversing pattern is interposed between the storage and guide free patterns. The free reversing pattern reverses a magnetization direction of the storage free pattern and a magnetization direction of the guide free pattern in the opposite directions. | 08-26-2010 |
20100301480 | SEMICONDUCTOR DEVICE HAVING A CONDUCTIVE STRUCTURE - A semiconductor device includes an interlayer insulating layer disposed on a substrate, the interlayer insulating layer comprising an opening exposing the substrate, a barrier layer pattern disposed within the opening, and a conductive pattern disposed on the barrier layer pattern, the conductive pattern having an oxidized portion extending out of the opening and a non-oxidized portion within the opening, wherein a width of the conductive pattern is determined by a thickness of the barrier layer pattern. | 12-02-2010 |
20120315707 | MAGNETIC PATTERNS AND METHODS OF FORMING MAGNETIC PATTERNS - In a method of forming a magnetic pattern, a lower electrode layer is formed on a substrate. An insulating interlayer is formed on the lower electrode layer. The insulating interlayer is partially removed to form an opening. A first pinned layer pattern filling the opening is formed. A second pinned layer, a tunnel barrier layer, a free layer and an upper electrode layer are formed on the insulating interlayer and the first pinned layer pattern. The upper electrode layer, the free layer, the tunnel barrier layer and the second pinned layer are patterned to form a second pinned layer pattern, a tunnel barrier pattern, a free layer pattern and an upper electrode. The second pinned layer pattern covers an upper surface of the first pinned layer pattern. | 12-13-2012 |
20140124727 | NONVOLATILE MEMORY DEVICES AND METHODS OF FORMING THE SAME - A nonvolatile memory device includes a bottom electrode on a semiconductor substrate, a data storage layer on the bottom electrode, the data storage layer including a transition metal oxide, and a switching layer provided on a top surface and/or a bottom surface of the data storage layer, wherein a bond energy of material included in the switching layer and oxygen is more than a bond energy of a transition metal in the transition metal oxide and oxygen. | 05-08-2014 |
Patent application number | Description | Published |
20080211036 | Bipolar Resistive Memory Device Having Tunneling Layer - A nonvolatile memory device includes a semiconductor substrate, a first electrode on the semiconductor substrate, a resistive layer on the first electrode, a second electrode on the resistive layer and at least one tunneling layer interposed between the resistive layer and the first electrode and/or the second electrode. The resistive layer and the tunneling layer may support transition between first and second resistance states responsive to first and second voltages applied across the first and second electrodes. The first and second voltages may have opposite polarities. | 09-04-2008 |
20090020745 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE HAVING TRANSITION METAL OXIDE LAYER AND RELATED DEVICE - Provided is a method of manufacturing a semiconductor device having a switching device capable of preventing a snake current. First, a transition metal oxide layer and a leakage control layer are alternately stacked on a substrate 1 to 20 times to form a varistor layer. The transition metal oxide layer is formed to contain an excessive transition metal compared to its stable state. The leakage control layer may be formed of one selected from the group consisting of a Mg layer, a Ta layer, an Al layer, a Zr layer, a Hf layer, a polysilicon layer, a conductive carbon group layer, and a Nb layer. | 01-22-2009 |
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 |
20090067216 | RESISTIVE MEMORY DEVICES INCLUDING SELECTED REFERENCE MEMORY CELLS - A magnetic memory cell array device can include a first current source line extending between pluralities of first and second memory cells configured for respective simultaneous programming and configured to conduct adequate programming current for writing one of the pluralities of first and second memory cells, a first current source transistor coupled to the first current source line and to a word line, a programming conductor coupled to the first current source transistor and extending across bit lines coupled to the one of the pluralities of first and second memory cells, configured to conduct the programming current across the bit lines, a second current source transistor coupled to the programming conductor and configured to switch the programming current from the programming conductor to a second current source transistor output, a second current source line extending adjacent the one of the pluralities of first and second memory cells opposite the first current source line, a first bias circuit configured to apply a first bias voltage to the first or second memory cells selected for accessed during a read operation, and a second bias circuit configured to apply a second bias voltage to the first or second memory cells unselected for access during the read operation. | 03-12-2009 |
20090135642 | RESISTIVE MEMORY DEVICES INCLUDING SELECTED REFERENCE MEMORY CELLS OPERATING RESPONSIVE TO READ OPERATIONS - A Resistance based Random Access Memory (ReRAM) can include a sense amplifier circuit that includes a first input coupled to a bit line of a reference cell in a first block of the ReRAM responsive to a read operation to a second block. | 05-28-2009 |
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 |
20110181151 | RIGID DUAL-SERVO NANO STAGE - The present invention relates to a stage, particularly to, a stage which is able to move minutely, having a rigidity-improved transfer part. A stage includes a work table on which a working object is placed, a motor configured to provide a rotational force, a shaft rotated by the motor to transfer the work table, a linear moving part configured to be expandable to linearly move the shaft in an axial direction, the linear moving part having a hollow to insert an end of the shaft therein, and an expanding part configured to be expandable as far as the shaft is moved by the linear moving part. | 07-28-2011 |
20110194338 | Memory Devices Including Multi-Bit Memory Cells Having Magnetic and Resistive Memory Elements and Related Methods - An integrated circuit memory device may include an integrated circuit substrate, and a multi-bit memory cell on the integrated circuit substrate. The multi-bit memory cell may be configured to store a first bit of data by changing a first characteristic of the multi-bit memory cell and to store a second bit of data by changing a second characteristic of the multi-bit memory cell. Moreover, the first and second characteristics may be different. Related methods are also discussed. | 08-11-2011 |
20110310657 | RESISTIVE MEMORY DEVICES INCLUDING SELECTED REFERENCE MEMORY CELLS OPERATING RESPONSIVE TO READ OPERATIONS - A Resistance based Random Access Memory (ReRAM) can include a sense amplifier circuit that includes a first input coupled to a bit line of a reference cell in a first block of the ReRAM responsive to a read operation to a second block. | 12-22-2011 |
20120158176 | SWARM ROBOT AND SWEEPING METHOD USING SWARM ROBOT - A swarm robot and a sweeping method using the swarm robot are provided. The swarm robot removes a plurality of objects in a given sweeping area, and at least two swarm robots collaborate to remove the individual object. The swarm robot searches the sweeping area, detects environment information of the sweeping area, locates the swarm robot in the sweeping area, generates a local map and an object map using the environment information and the acquired position, moves to the object according to the local map and the object map, and removes the object. | 06-21-2012 |