Patent application number | Description | Published |
20140091272 | RESISTANCE VARIABLE MEMORY STRUCTURE AND METHOD OF FORMING THE SAME - A semiconductor structure includes a resistance variable memory structure. The semiconductor structure also includes a conductive structure. The resistance variable memory structure is over the conductive structure. The resistance variable memory structure includes a first electrode over the conductive structure. A resistance variable layer is disposed over the first electrode. A cap layer is disposed over the resistance variable layer. The cap layer includes a first metal material. A second electrode disposed over the cap layer. The second electrode includes a second metal material different from the first metal material. | 04-03-2014 |
20140131650 | RESISTANCE VARIABLE MEMORY STRUCTURE - A semiconductor structure includes a resistance variable memory structure. The semiconductor structure also includes a dielectric layer. The resistance variable memory structure is over the dielectric layer. The resistance variable memory structure includes a first electrode disposed over the dielectric layer. The first electrode has a sidewall surface. A resistance variable layer has a first portion which is disposed over the sidewall surface of the first electrode and a second portion which extends from the first portion away from the first electrode. A second electrode is over the resistance variable layer. | 05-15-2014 |
20140131651 | LOGIC COMPATIBLE RRAM STRUCTURE AND PROCESS - A memory cell and method including a first electrode conformally formed through a first opening in a first dielectric layer, a resistive layer conformally formed on the first electrode, a second electrode conformally formed on the resistive layer, and a second dielectric layer conformally formed on the second electrode, the second dielectric layer including a second opening. The first dielectric layer is formed on a substrate including a first metal layer. The first electrode and the resistive layer collectively include a first lip region that extends a first distance beyond a region defined by the first opening. The second electrode and the second dielectric layer collectively include a second lip region that extends a second distance beyond the region defined by the first opening. The second electrode is coupled to a second metal layer using a via that extends through the second opening. | 05-15-2014 |
20140131654 | LOGIC COMPATIBLE RRAM STRUCTURE AND PROCESS - A memory cell and method including a first electrode conformally formed through a first opening in a first dielectric layer, a resistive layer conformally formed on the first electrode, a spacing layer conformally formed on the resistive layer, a second electrode conformally formed on the resistive layer, and a second dielectric layer conformally formed on the second electrode, the second dielectric layer including a second opening. The first dielectric layer is formed on a substrate including a first metal layer. The first electrode and the resistive layer collectively include a first lip region that extends a first distance beyond the first opening. The second electrode and the second dielectric layer collectively include a second lip region that extends a second distance beyond the first opening. The spacing layer extends from the second distance to the first distance. The second electrode is coupled to a second metal layer using a via that extends through the second opening. | 05-15-2014 |
20140166961 | RESISTIVE RANDOM ACCESS MEMORY (RRAM) AND METHOD OF MAKING - The present disclosure provides a resistive random access memory (RRAM) cells and methods of making the same. The RRAM cell includes a transistor and an RRAM structure electrically connected to the transistor. The RRAM structure includes a bottom electrode having a via portion and a top portion, a resistive material layer over the bottom electrode and having a same width as the top portion of the bottom electrode, and a top electrode over the resistive material layer and having a smaller width than the resistive material layer. | 06-19-2014 |
20140175365 | RESISTIVE RANDOM ACCESS MEMORY (RRAM) STRUCTURE AND METHOD OF MAKING THE RRAM STRUCTURE - The present disclosure provides a resistive random access memory (RRAM) cell. The RRAM cell includes a transistor, a bottom electrode adjacent to a drain region of the transistor and coplanar with the gate, a resistive material layer on the bottom electrode, a top electrode on the resistive material layer, and a conductive material connecting the bottom electrode to the drain region. | 06-26-2014 |
20140175366 | RESISTANCE VARIABLE MEMORY STRUCTURE AND METHOD OF FORMING THE SAME - A semiconductor structure includes a resistance variable memory structure. The semiconductor structure also includes a dielectric layer. The resistance variable memory structure is over the dielectric layer. The resistance variable memory structure includes a first electrode disposed over the dielectric layer. The first electrode has a sidewall surface. A resistance variable layer has a first portion which is disposed over the sidewall surface of the first electrode and a second portion which extends from the first portion away from the first electrode. A second electrode is over the resistance variable layer. | 06-26-2014 |
20140203236 | ONE TRANSISTOR AND ONE RESISTIVE RANDOM ACCESS MEMORY (RRAM) STRUCTURE WITH SPACER - The present disclosure provides a resistive random access memory (RRAM) cells and methods of making the same. The RRAM cell includes a transistor and an RRAM structure. The RRAM structure includes a bottom electrode having a via portion and a top portion, a resistive material layer on the bottom electrode having a width that is same as a width of the top portion of the bottom electrode; a capping layer over the bottom electrode; a spacer surrounding the capping layer; and, a top electrode on the capping layer having a smaller width than the resistive material layer. The RRAM cell further includes a conductive material connecting the top electrode of the RRAM structure to a metal layer. | 07-24-2014 |
20140247644 | Resistive Memory Reset - A resistive memory cell includes a switch and a resistive switching device. The switch includes a first terminal connected to a select line and a gate terminal connected to a word line. The resistive switching device is connected between a second terminal of the switch and a bit line. The resistive switching device is resettable by having a positive bias applied to the word line and a negative bias applied to the bit line. | 09-04-2014 |
20140252295 | ONE TRANSISTOR AND ONE RESISTIVE (1T1R) RANDOM ACCESS MEMORY (RRAM) STRUCTURE WITH DUAL SPACERS - The present disclosure provides a resistive random access memory (RRAM) cells and methods of making the same. The RRAM cell includes a transistor and an RRAM structure. The RRAM structure includes a bottom electrode having a via portion and a top portion, a resistive material layer on the bottom electrode having a width that is same as a width of the top portion of the bottom electrode; a capping layer over the bottom electrode, a first spacer surrounding the capping layer and a top electrode, a second spacer surround the top portion of the bottom electrode and the first spacer, and the top electrode. The RRAM cell further includes a conductive material connecting the top electrode of the RRAM structure to a metal layer. | 09-11-2014 |
20140252297 | Resistive Memory Cell Array with Top Electrode Bit Line - A method for forming a resistive memory cell within a memory array includes forming a patterned stopping layer on a first metal layer formed on a substrate and forming a bottom electrode into features of the patterned stopping layer. The method further includes forming a resistive memory layer. The resistive memory layer includes a metal oxide layer and a top electrode layer. The method further includes patterning the resistive memory layer so that the top electrode layer acts as a bit line within the memory array and a top electrode of the resistive memory cell. | 09-11-2014 |
20140254237 | Method for Operating RRAM Memory - Methods for operating memory are disclosed. A method includes applying a select word line voltage to a word line node of a first resistive random access memory (RRAM) cell; applying a first programming voltage to a source line node of the first RRAM cell; and setting the first RRAM cell comprising applying a second programming voltage to a bit line node of the first RRAM cell. The first programming voltage is greater than zero volts, and the second programming voltage is greater than the first programming voltage. Other disclosed methods include concurrently setting and resetting RRAM cells. | 09-11-2014 |
20140264222 | Resistive Switching Random Access Memory with Asymmetric Source and Drain - The present disclosure provides one embodiment of a resistive random access memory (RRAM) structure. The RRAM structure includes a resistive memory element formed on a semiconductor substrate and designed for data storage; and a field effect transistor (FET) formed on the semiconductor substrate and coupled with the resistive memory element. The FET includes asymmetric source and drain. The resistive element includes a resistive material layer and further includes first and second electrodes interposed by the resistive material layer. | 09-18-2014 |
20140264229 | LOW FORM VOLTAGE RESISTIVE RANDOM ACCESS MEMORY (RRAM) - The present disclosure provides a resistive random access memory (RRAM) cells and methods of making the same. The RRAM cell includes a transistor and an RRAM structure. The RRAM structure includes a bottom electrode having a via portion and a non-planar portion, a resistive material layer conformally covering the non-planar portion of the bottom electrode; and, a top electrode on the resistive material layer. The via portion of the bottom electrode is embedded in a first RRAM stop layer. The non-planar portion of the bottom electrode has an apex and is centered above the via portion. | 09-18-2014 |
20140264233 | RESISTANCE VARIABLE MEMORY STRUCTURE AND METHOD OF FORMING THE SAME - A semiconductor structure includes a memory region. A memory structure is disposed on the memory region. The memory structure includes a first electrode, a resistance variable layer, protection spacers and a second electrode. The first electrode has a top surface and a first outer sidewall surface on the memory region. The resistance variable layer has a first portion and a second portion. The first portion is disposed over the top surface of the first electrode and the second portion extends upwardly from the first portion. The protection spacers are disposed over a portion of the top surface of the first electrode and surround at least the second portion of the resistance variable layer. The protection spacers are configurable to protect at least one conductive path in the resistance variable layer. The protection spacers have a second outer sidewall surface substantially aligned with the first outer sidewall surface of the first electrode. The second electrode is disposed over the resistance variable layer. | 09-18-2014 |
20140264234 | RESISTANCE VARIABLE MEMORY STRUCTURE AND METHOD OF FORMING THE SAME - A semiconductor structure includes a memory region. A memory structure is disposed on the memory region. The memory structure includes a first electrode, a resistance variable layer, a protection material and a second electrode. The first electrode has a top surface on the memory region. The resistance variable layer has at least a first portion and a second portion. The first portion is disposed over the top surface of the first electrode and the second portion extends upwardly from the first portion. The protection material surrounds the second portion of the resistance variable layer. The protection material is configurable to protect at least one conductive path in the resistance variable layer. The second electrode is disposed over the resistance variable layer. | 09-18-2014 |