Patent application number | Description | Published |
20080258271 | Multi-dielectric films for semiconductor devices and methods of fabricating multi-dielectric films - A multi-dielectric film including at least one first dielectric film that is a composite film made of zirconium-hafnium-oxide and at least one second dielectric film that is a metal oxide film made of amorphous metal oxide. Adjacent ones of the dielectric films are made of different materials. | 10-23-2008 |
20090085160 | Semiconductor Device Including Insulating Layer of Cubic System or Tetragonal System - Provided is a semiconductor device including an insulating layer of a cubic system or a tetragonal system, having good electrical characteristics. The semiconductor device includes a semiconductor substrate including an active region, a transistor that is formed in the active region of the semiconductor substrate, an interlevel insulating layer that is formed on the semiconductor substrate and a contact plug that is formed in the interlevel insulating layer and that is electrically connected to the transistor. The semiconductor device may include a lower electrode that is formed on the interlevel insulating layer and that is electrically connected to the contact plug, an upper electrode that is formed on the lower electrode and an insulating layer of a cubic system or a tetragonal system including a metal silicate layer. The insulating layer may be formed between the lower electrode and the upper electrode. | 04-02-2009 |
20090195962 | MULTILAYER ELECTRODE STRUCTURES INCLUDING CAPACITOR STRUCTURES HAVING ALUMINUM OXIDE DIFFUSION BARRIERS - A multilayer electrode structure has a conductive layer including aluminum, an oxide layer formed on the conductive layer, and an oxygen diffusion barrier layer. The oxide layer includes zirconium oxide and/or titanium oxide. The oxygen diffusion barrier layer is formed at an interface between the conductive layer and the oxide layer by re-oxidizing the oxide layer. The oxygen diffusion barrier layer includes aluminum oxide. | 08-06-2009 |
20090309187 | Semiconductor Device and Method of Fabricating the Same - Provided is a semiconductor device including a multi-layer dielectric structure and a method of fabricating the semiconductor device. According to one example embodiment, the semiconductor device includes a capacitor comprising: first and second electrodes facing each other; at least one first dielectric layer that is disposed between the first and second electrodes, the at least one first dielectric layer comprising a first high-k dielectric layer doped with silicon; and at least one second dielectric layer that is disposed between the at least one first dielectric layer and any of the first and second electrodes, the at least one second dielectric layer having a higher crystallization temperature than that of the first dielectric layer. | 12-17-2009 |
20100167554 | METHODS FORMING HIGH DIELECTRIC TARGET LAYER - In a method of forming a target layer having a uniform composition of constituent materials, a first precursor including a first central atom and a ligand is chemisorbed on a first reaction site of an object. The ligand or the first central atom is then removed to form a second reaction site. A second precursor including a second central atom is then chemisorbed on the second reaction site. | 07-01-2010 |
20100190320 | METHODS OF REMOVING WATER FROM SEMICONDUCTOR SUBSTRATES AND METHODS OF DEPOSITING ATOMIC LAYERS USING THE SAME - Provided are methods of removing water adsorbed or bonded to a surface of a semiconductor substrate, and methods of depositing an atomic layer using the method of removing water described herein. The method of removing water includes applying a chemical solvent to the surface of a semiconductor substrate, and removing the chemical solvent from the surface of the semiconductor substrate. | 07-29-2010 |
20110014770 | Methods of forming a dielectric thin film of a semiconductor device and methods of manufacturing a capacitor having the same - A method of forming a dielectric thin film of a semiconductor device, the method including supplying a first nuclear atom precursor source and a second nuclear atom precursor source having different thermal decomposition temperatures to a substrate and forming a chemical adsorption layer including first nuclear atoms and second nuclear atoms on the substrate. A reactant including oxygen atoms may be supplied to the substrate on which the chemical adsorption layer is formed. An atomic layer including an oxide of the first nuclear atoms and the second nuclear atoms may be formed on the chemical adsorption layer. | 01-20-2011 |
20110073832 | PHASE-CHANGE MEMORY DEVICE - A phase-change memory device, including a lower electrode, a phase-change material pattern electrically connected to the lower electrode, and an upper electrode electrically connected to the phase-change material pattern. The lower electrode may include a first structure including a metal semiconductor compound, a second structure on the first structure, the second structure including a metal nitride material, and including a lower part having a greater width than an upper part, and a third structure including a metal nitride material containing an element X, the third structure being on the second structure, the element X including at least one selected from the group of silicon, boron, aluminum, oxygen, and carbon. | 03-31-2011 |
20110104907 | METHODS OF FORMING A METAL SILICATE LAYER AND METHODS OF FABRICATING A SEMICONDUCTOR DEVICE INCLUDING THE METAL SILICATE LAYER - Methods of forming a metal silicate layer and methods of fabricating a semiconductor device including the metal silicate layer are provided, the methods of forming the metal silicate layer include forming the metal silicate using a plurality of silicon precursors. The silicon precursors are homoleptic silicon precursors in which ligands bound to silicon have the same molecular structure. | 05-05-2011 |
20110183512 | METHOD OF FORMING SEMICONDUCTOR DEVICE HAVING CONTACT PLUG - A method of forming a semiconductor device includes forming a lower conductive pattern on a substrate, forming an insulating layer over the lower conductive pattern, forming a contact hole through the insulating layer to expose the lower conductive pattern, forming a first spacer along sides of the contact hole, and then forming a contact plug in the contact hole. The contact plug is formed so as to contact the lower conductive pattern. | 07-28-2011 |
20110227143 | INTEGRATED CIRCUIT DEVICES INCLUDING COMPLEX DIELECTRIC LAYERS AND RELATED FABRICATION METHODS - An electronic device includes a lower layer, a complex dielectric layer on the lower layer, and an upper layer on the complex dielectric layer. The complex dielectric layer includes an amorphous metal silicate layer and a crystalline metal-based insulating layer thereon. Related fabrication methods are also discussed. | 09-22-2011 |
20110230056 | METHODS OF FABRICATING SEMICONDUCTOR DEVICES INCLUDING MULTILAYER DIELECTRIC LAYERS - Methods of manufacturing semiconductor devices including multilayer dielectric layers are disclosed. The methods include forming a multilayer dielectric layer including metal atoms and silicon atoms on a semiconductor substrate. The multilayer dielectric layer includes at least two crystalline metal silicate layers having different silicon concentrations. The multilayer dielectric layer may be used, for example, as a dielectric layer for a capacitor, or as a blocking layer for a nonvolatile memory device. | 09-22-2011 |
20110237043 | METHOD FOR MANUFACTURING CAPACITOR OF SEMICONDUCTOR DEVICE AND CAPACITOR OF SEMICONDUCTOR DEVICE MANUFACTURED THEREBY - A method of manufacturing a capacitor of a semiconductor device includes forming a high-k dielectric pattern on a semiconductor substrate, the high-k dielectric pattern having a pillar shape including a hole therein, forming a lower electrode in the hole of the high-k dielectric pattern, locally forming a blocking insulating pattern on an upper surface of the lower electrode, and forming an upper electrode covering the high-k dielectric pattern and the blocking insulating pattern. | 09-29-2011 |
20110242727 | CAPACITOR - A capacitor may include a lower electrode structure, a dielectric layer and an upper electrode structure. The lower electrode structure may include a first lower pattern, a first deformation-preventing layer pattern and a second lower pattern. The first lower pattern may have a cylindrical shape. The first deformation-preventing layer pattern may be formed on an inner surface of the first lower pattern. The second lower pattern may be formed on the first deformation-preventing layer pattern. The dielectric layer may be formed on the lower electrode structure. The upper electrode structure may be formed on the dielectric layer. Thus, the capacitor may have a high capacitance and improved electrical characteristics. | 10-06-2011 |
20120088360 | Methods of Fabricating Semiconductor Devices - Methods of manufacturing a semiconductor device including a multi-layer of dielectric layers may include forming a metal oxide layer on a semiconductor substrate and forming a multi-layer of silicate layers including metal atoms and silicon atoms, on the metal oxide layer. The multi-layer of silicate layers may include at least two metallic silicate layers having different silicon concentrations, which are a ratio of silicon atoms among all metal atoms and silicon atoms included in the metallic silicate layer. | 04-12-2012 |
20120168904 | Semiconductor Device Including Insulating Layer of Cubic System or Tetragonal System - Provided is a semiconductor device including an insulating layer of a cubic system or a tetragonal system, having good electrical characteristics. The semiconductor device includes a semiconductor substrate including an active region, a transistor that is formed in the active region of the semiconductor substrate, an interlevel insulating layer that is formed on the semiconductor substrate and a contact plug that is formed in the interlevel insulating layer and that is electrically connected to the transistor. The semiconductor device may include a lower electrode that is formed on the interlevel insulating layer and that is electrically connected to the contact plug, an upper electrode that is formed on the lower electrode and an insulating layer of a cubic system or a tetragonal system including a metal silicate layer. The insulating layer may be formed between the lower electrode and the upper electrode. | 07-05-2012 |
20120264271 | METHOD OF FORMING A CAPACITOR AND METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE USING THE SAME - A capacitor is fabricated by forming a mold layer of a silicon based material that is not an oxide of silicon, e.g., polysilicon or doped polysilicon, on a substrate, forming an opening through the mold layer, forming a barrier layer pattern along the sides of the opening, subsequently forming a lower electrode in the opening, then removing the mold layer and the barrier layer pattern, and finally sequentially forming dielectric layer and an upper electrode on the lower electrode. | 10-18-2012 |
20120276721 | METHOD OF FORMING AN OXIDE LAYER AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE INCLUDING THE OXIDE LAYER - A method of forming an oxide layer. The method includes: forming a layer of reaction-inhibiting functional groups on a surface of a substrate; forming a layer of precursors of a metal or a semiconductor on the layer of the reaction-inhibiting functional groups; and oxidizing the precursors of the metal or the semiconductor in order to obtain a layer of a metal oxide or a semiconductor oxide. According to the method, an oxide layer having a high thickness uniformity may be formed and a semiconductor device having excellent electrical characteristics may be manufactured. | 11-01-2012 |
20140338600 | EXHAUSTING APPARATUSES AND FILM DEPOSITION FACILITIES INCLUDING THE SAME - An exhausting apparatus includes an exhaust pump configured to extract unreacted precursor in a process chamber and vent the unreacted precursor out of the exhaust pump, and a first material supplier configured to supply a first material into the exhaust pump. The first material is adsorbable on an interior surface of the exhaust pump to prevent the unreacted precursor from being adsorbed on the interior surface of the exhaust pump. | 11-20-2014 |
20150063029 | FLASH MEMORY DEVICE REDUCING NOISE PEAK AND PROGRAM TIME AND PROGRAMMING METHOD THEREOF - A flash memory device reduces noise peak and program time through serial programming of program blocks of memory cells. The time interval or the number of the program groups is decreased according to the proceeding program loop in the plurality of program loops, reducing the total program time. | 03-05-2015 |