Patent application number | Description | Published |
20090061538 | Methods of forming ferroelectric capacitors and methods of manufacturing semiconductor devices using the same - In a method of forming a ferroelectric capacitor, a lower electrode layer is formed on a substrate. A first crystalline layer is formed on the lower electrode layer. A ferroelectric layer is formed on the first crystalline layer. The first crystalline layer one of prevents a component of the ferroelectric layer from diffusing into the lower electrode layer and mitigates fatigue of the ferroelectric layer. An upper electrode layer is formed on the ferroelectric layer. | 03-05-2009 |
20100181605 | DATA STORAGE DEVICE HAVING SELF-POWERED SEMICONDUCTOR DEVICE - Provided is a data storage device. The data storage device includes an interface, a buffer controller, a memory controller, a non-volatile memory, and a self-powered semiconductor device adjacent to and electrically connected to the buffer controller. The self-powered semiconductor device includes a semiconductor chip and a rechargeable micro-battery attached to the semiconductor chip. The rechargeable micro-battery includes a first current collector and a second current collector, which face each other, a first polarizing electrode in contact with the first current collector and facing the second current collector, a second polarizing electrode in contact with the second current collector and facing the first polarizing electrode, and an electrolyte layer formed between the first and second polarizing electrodes. | 07-22-2010 |
20110032752 | Multi-Level Memory Device Using Resistance Material - A multi-level memory device includes an insulating layer having an opening therein, and a multi-level cell (MLC) formed in the opening that has a resistance level varies based on the data stored therein. The MLC is configured to have a resistance level that varies as write pulses having the same pulse height and different pulse widths are applied to the MLC. | 02-10-2011 |
20110032753 | MEMORY CELLS INCLUDING RESISTANCE VARIABLE MATERIAL PATTERNS OF DIFFERENT COMPOSITIONS - A non-volatile memory device includes a plurality of word lines, a plurality of bit lines, and an array of variable resistance memory cells each electrically connected between a respective word line and a respective bit line. Each of the memory cells includes first and second resistance variable patterns electrically connected in series between first and second electrodes. A material composition of the first resistance variable pattern is different than a material composition of the second resistance variable pattern. Multi-bit data states of each memory cell are defined by a contiguous increase in size of a programmable high-resistance volume within the first and second resistance variable patterns. | 02-10-2011 |
20110197812 | APPARATUS AND METHOD FOR FABRICATING A PHASE-CHANGE MATERIAL LAYER - Apparatus for fabricating a phase-change material layer include a process chamber. A first source supplier including a liquid delivery system (LDS) structure is coupled between a tellurium (Te) source container and the process chamber. A second source supplier including a bubbler method structure is coupled between at least one metal organic (MO) source container and the process chamber. Methods are also provided. | 08-18-2011 |
20110272663 | NONVOLATILE MEMORY DEVICE USING VARIABLE RESISTIVE ELEMENT - A nonvolatile memory device and a method of fabricating the same are provided. The nonvolatile memory device includes a conductive pillar that extends from a substrate in a first direction, a variable resistor that surrounds the conductive pillar, a switching material layer that surrounds the variable resistor, a first conductive layer that extends in a second direction, and a first electrode that extends in a third direction and contacts the first conductive layer and the switching material layer. Not one of the first, second, and third directions is parallel to another one of the first, second, and third directions. | 11-10-2011 |
20110284815 | PHASE-CHANGE MEMORY DEVICES HAVING STRESS RELIEF BUFFERS - A memory device includes a substrate and a memory cell including a first electrode on the substrate, a phase-change material region on the first electrode and a second electrode on the phase-change material region opposite the first electrode. The memory device further includes a stress relief buffer adjacent a sidewall of the phase-change material region between the first and second electrodes. In some embodiments, the stress relief buffer includes a stress relief region contacting the sidewall of the phase-change material region. In further embodiments, the stress relief buffer includes a void adjacent the sidewall of the phase-change material region. | 11-24-2011 |
20120040508 | Method of Forming Semiconductor Device Having Self-Aligned Plug - A conductive pattern on a substrate is formed. An insulating layer having an opening exposing the conductive pattern is formed. A bottom electrode is formed on the conductive pattern and a first sidewall of the opening. A spacer is formed on the bottom electrode and a second sidewall of the opening. The spacer and the bottom electrode are formed to be lower than a top surface of the insulating layer. A data storage plug is formed on the bottom electrode and the spacer. The data storage plug has a first sidewall aligned with a sidewall of the bottom electrode and a second sidewall aligned with a sidewall of the spacer. A bit line is formed on the data storage plug. | 02-16-2012 |
20120231603 | Methods of forming phase change material layers and methods of manufacturing phase change memory devices - A phase change material layer includes a Ge-M-Te (GMT) ternary phase change material, where Ge is germanium, M is a heavy metal, and Te is tellurium. The GMT ternary phase change material may also include a dopant. | 09-13-2012 |
20130213910 | BOAT FOR LOADING SEMICONDUCTOR SUBSTRATES - Provided is a boat for loading semiconductor substrates that includes a top plate and a bottom plate separated from each other, a rod extending from the bottom plate to the top plate and disposed between the top plate and the bottom plate, a plurality of buffer plates disposed between the top plate and the bottom plate and separated from each other by a first distance along a lengthwise direction of the rod, and a support provided between a first buffer plate and a second buffer plate which neighbor each other and supporting a loaded semiconductor substrate. | 08-22-2013 |
20130302966 | Method of Forming Semiconductor Device Having Self-Aligned Plug - A conductive pattern on a substrate is formed. An insulating layer having an opening exposing the conductive pattern is formed. A bottom electrode is formed on the conductive pattern and a first sidewall of the opening. A spacer is formed on the bottom electrode and a second sidewall of the opening. The spacer and the bottom electrode are formed to be lower than a top surface of the insulating layer. A data storage plug is formed on the bottom electrode and the spacer. The data storage plug has a first sidewall aligned with a sidewall of the bottom electrode and a second sidewall aligned with a sidewall of the spacer. A bit line is formed on the data storage plug. | 11-14-2013 |