Patent application number | Description | Published |
20110049650 | Electro-Mechanical Transistor - An electromechanical transistor includes a source electrode and a drain electrode spaced apart from each other. A source pillar is between the substrate and the source electrode. A drain pillar is between the substrate and the drain electrode. A moveable channel is spaced apart from the source electrode and the drain electrode. A gate nano-pillar is between the moveable channel and the substrate. A first dielectric layer is between the moveable channel and the gate nano-pillar. A second dielectric layer is between the source pillar and the source electrode. A third dielectric layer is between the drain pillar and the drain electrode. | 03-03-2011 |
20110300686 | Methods of Fabricating Non-Volatile Memory Devices - Methods of forming non-volatile memory devices include forming a semiconductor layer having a first impurity region of first conductivity type extending adjacent a first side thereof and a second impurity region of second conductivity type extending adjacent a second side thereof, on a substrate. A first electrically conductive layer is also provided, which is electrically coupled to the first impurity region. The semiconductor layer is converted into a plurality of semiconductor diodes having respective first terminals electrically coupled to the first electrically conductive layer. The first electrically conductive layer operates as a word line or bit line of the non-volatile memory device. The converting may include patterning the first impurity region into a plurality of cathodes or anodes of the plurality of semiconductor diodes (e.g., P-i-N diodes). | 12-08-2011 |
20120098139 | Vertical Memory Devices And Methods Of Manufacturing The Same - A vertical memory device includes a channel, a ground selection line (GSL), word lines, a string selection line (SSL), and a contact. The channel includes a vertical portion and a horizontal portion. The vertical portion extends in a first direction substantially perpendicular to a top surface of a substrate, and the horizontal portion is connected to the vertical portion and parallel to the top surface of the substrate. The GSL, the word lines and the SSL are formed on a sidewall of the vertical portion of the channel sequentially in the first direction, and are spaced apart from each other. The contact is on the substrate and electrically connected to the horizontal portion of the channel. | 04-26-2012 |
20120305877 | NON-VOLATILE MEMORY DEVICE HAVING A RESISTANCE-CHANGEABLE ELEMENT AND METHOD OF FORMING THE SAME - A non-volatile memory device is provided wherein a lower molding layer is formed on a substrate; a first horizontal interconnection is formed on the lower molding layer; an upper molding layer is formed on the first horizontal interconnection; a pillar is formed connected to the substrate by vertically passing through the upper molding layer, the first horizontal interconnection and the lower molding layer. The pillar has a lower part and an upper part, wherein the lower part is disposed on the same level as the first horizontal interconnection and has a first width and the upper part is disposed on a higher level than the first horizontal interconnection and has a second width different from the first width. | 12-06-2012 |
20120313066 | NONVOLATILE MEMORY DEVICES, NONVOLATILE MEMORY CELLS AND METHODS OF MANUFACTURING NONVOLATILE MEMORY DEVICES - A nonvolatile memory cell includes first and second interlayer insulating films which are separated from each other and are stacked sequentially, a first electrode which penetrates the first interlayer insulating film and the second interlayer insulating film, a resistance change film which is formed along a side surface of the first electrode and extends parallel to the first electrode, and a second electrode which is formed between the first interlayer insulating film and the second interlayer insulating film. The second electrode includes a conductive film which is made of metal and a diffusion preventing film which prevents diffusion of a conductive material contained in the conductive film. | 12-13-2012 |
Patent application number | Description | Published |
20080212376 | METHODS OF OPERATING AND MANUFACTURING LOGIC DEVICE AND SEMICONDUCTOR DEVICE INCLUDING COMPLEMENTARY NONVOLATILE MEMORY DEVICE, AND READING CIRCUIT FOR THE SAME - Provided are a complementary nonvolatile memory device, methods of operating and manufacturing the same, a logic device and semiconductor device having the same, and a reading circuit for the same. The complementary nonvolatile memory device includes a first nonvolatile memory and a second nonvolatile memory which are sequentially stacked and have a complementary relationship. The first and second nonvolatile memories are arranged so that upper surfaces thereof are contiguous. | 09-04-2008 |
20090010058 | MULTI-BIT NON-VOLATILE MEMORY DEVICE, METHOD OF OPERATING THE SAME, AND METHOD OF FABRICATING THE SAME - A multi-bit non-volatile memory device and methods of operating and fabricating the same may be provided. The memory device may include a channel region formed in a semiconductor substrate, and a source and drain that form a Schottky contact with the channel region. Also, a central gate electrode may be located on a portion of the channel region, and first and second sidewall gate electrodes may be formed on the channel region along the outer sides of the central gate electrode. First and second storage nodes may be formed between the channel region and the sidewall gate electrodes. | 01-08-2009 |
20090068808 | Method of manufacturing a nonvolatile semiconductor memory device having a gate stack - A nonvolatile semiconductor memory device includes a semiconductor substrate having a source region and a drain region, and a gate stack formed on the semiconductor substrate between and in contact with the source and drain regions. The gate stack includes, in sequential order from the substrate: a tunneling film; a first trapping material film doped with a first predetermined impurity, the first trapping material film having a higher dielectric constant than the nitride film (Si | 03-12-2009 |
20090238004 | Method of operating sonos memory device - A silicon-oxide-nitride-oxide-silicon (SONOS) memory device includes a memory type transistor including a gate with a SONOS structure on a semiconductor substrate. The gate is formed by sequentially stacking a tunneling oxide layer, a memory node structure including a trap site having nano-sized trap elements in which charges passing through the tunneling oxide layer are trapped, and a gate electrode. The nano-sized trap elements may be a crystal layer composed of nanocrystals that are separated from one another to trap the charges. The memory node structure may include additional memory node layers which are isolated from the nano-sized trap elements. | 09-24-2009 |
20100296347 | Method of erasing device including complementary nonvolatile memory devices - Provided are a complementary nonvolatile memory device, methods of operating and manufacturing the same, a logic device and semiconductor device having the same, and a reading circuit for the same. The complementary nonvolatile memory device includes a first nonvolatile memory and a second nonvolatile memory which are sequentially stacked and have a complementary relationship. The first and second nonvolatile memories are arranged so that upper surfaces thereof are contiguous. | 11-25-2010 |