Patent application number | Description | Published |
20080200014 | METHOD OF FORMING A VERTICAL DIODE AND METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE USING THE SAME - A method of forming a vertical diode and a method of manufacturing a semiconductor device (e.g., a semiconductor memory device such as a phase-change memory device) includes forming an insulating structure having an opening on a substrate and filling the opening with an amorphous silicon layer. A metal silicide layer is formed to contact at least a portion of the amorphous silicon layer and a polysilicon layer is then formed in the opening by crystallizing the amorphous silicon layer using the metal silicide layer. A doped polysilicon layer is formed by implanting impurities into the polysilicon layer. Thus, the polysilicon layer is formed in the opening without performing a selective epitaxial growth (SEG) process, so that electrical characteristics of the diode may be improved. | 08-21-2008 |
20080286957 | METHOD FORMING EPITAXIAL SILICON STRUCTURE - A method of forming an epitaxial silicon structure is disclosed. The method includes performing a first epitaxial growth process using a first source gas including silicon (Si) and hydrogen chloride (HCl) to form a first epitaxial silicon layer on a substrate, and performing a second epitaxial growth process using a second source gas including silicon (Si) and chlorine (Cl) to form a second epitaxial silicon layer on the first epitaxial silicon layer. | 11-20-2008 |
20080305572 | METHOD OF FABRICATING IMAGE DEVICE HAVING CAPACITOR AND IMAGE DEVICE FABRICATED THEREBY - There are provided a method of fabricating an image device having a capacitor and an image device fabricated thereby. The method comprises preparing a substrate having a pixel region and a peripheral circuit region. A lower electrode containing silicon is formed on the substrate of the peripheral circuit region. A capacitor dielectric layer is formed by sequentially stacking a first dielectric layer and a second dielectric layer on the lower electrode, and the first dielectric layer and the second dielectric layer have a different dielectric constant from each other. In this case, one of the first and second dielectric layers is a dielectric layer grown from a material layer formed thereunder and has a lower dielectric constant than that of the other. An upper electrode is formed on the capacitor dielectric layer. | 12-11-2008 |
20090108323 | Method of forming nonvolatile memory device having floating gate and related device - A method of manufacturing a non-volatile memory device is provided. The method includes forming isolation patterns defining an active region on a substrate, forming a floating gate pattern on the active region, and forming a gate line on the floating gate pattern. The floating gate pattern is self-aligned on the active region and has an impurity ion concentration that becomes relatively low as the floating gate pattern gets nearer to the active region. | 04-30-2009 |
20100323489 | Method of forming a vertical diode and method of manufacturing a semiconductor device using the same - A method of forming a vertical diode and a method of manufacturing a semiconductor device (e.g., a semiconductor memory device such as a phase-change memory device) includes forming an insulating structure having an opening on a substrate and filling the opening with an amorphous silicon layer. A metal silicide layer is formed to contact at least a portion of the amorphous silicon layer and a polysilicon layer is then formed in the opening by crystallizing the amorphous silicon layer using the metal silicide layer. A doped polysilicon layer is formed by implanting impurities into the polysilicon layer. Thus, the polysilicon layer is formed in the opening without performing a selective epitaxial growth (SEG) process, so that electrical characteristics of the diode may be improved. | 12-23-2010 |
20110101437 | METHOD OF FORMING NONVOLATILE MEMORY DEVICE HAVING FLOATING GATE AND RELATED DEVICE - A method of manufacturing a non-volatile memory device is provided. The method includes forming isolation patterns defining an active region on a substrate, forming a floating gate pattern on the active region, and forming a gate line on the floating gate pattern. The floating gate pattern is self-aligned on the active region and has an impurity ion concentration that becomes relatively low as the floating gate pattern gets nearer to the active region. | 05-05-2011 |
20130175491 | SEMICONDUCTOR DEVICES AND METHODS OF MANUFACTURING THE SAME - Semiconductor devices, and methods of manufacturing the same, include a field region in a semiconductor substrate to define an active region. An interlayer insulating layer is on the semiconductor substrate. A semiconductor pattern is within a hole vertically extending through the interlayer insulating layer. The semiconductor pattern is in contact with the active region. A barrier region is between the semiconductor pattern and the interlayer insulating layer. The barrier region includes a first buffer dielectric material and a barrier dielectric material. The first buffer dielectric material is between the barrier dielectric material and the semiconductor pattern, and the barrier dielectric material is spaced apart from both the semiconductor pattern and the active region. | 07-11-2013 |
20140158964 | Semiconductor Devices Having Blocking Layers and Methods of Forming the Same - A semiconductor device includes a lower interconnection having second conductivity-type impurities on a substrate having first conductivity-type impurities. A switching device is on the lower interconnection. A first blocking layer is provided between the lower interconnection and the switching device. The first blocking layer includes carbon (C), germanium (Ge), or a combination thereof. A second blocking layer may be provided between the substrate and the lower interconnection. | 06-12-2014 |