Patent application number | Description | Published |
20080246021 | Single electron transistor and method of manufacturing the same - A single electron transistor includes source/drain layers disposed apart on a substrate, at least one nanowire channel connecting the source/drain layers, a plurality of oxide channel areas in the nanowire channel, the oxide channel areas insulating at least one portion of the nanowire channel, a quantum dot in the portion of the nanowire channel insulated by the plurality of oxide channel areas, and a gate electrode surrounding the quantum dot. | 10-09-2008 |
20080296649 | SEMICONDUCTOR DEVICE EMPLOYING BURIED INSULATING LAYER AND METHOD OF FABRICATING THE SAME - A semiconductor device employs an asymmetrical buried insulating layer, and a method of fabricating the same. The semiconductor device includes a lower semiconductor substrate. An upper silicon pattern is located on the lower semiconductor substrate. The upper silicon pattern includes a channel region, and a source region and a drain region spaced apart from each other by the channel region. A gate electrode is electrically insulated from the upper silicon pattern and intersects over the channel region. A bit line and a cell capacitor are electrically connected to the source region and the drain region, respectively. A buried insulating layer is interposed between the drain region and the lower semiconductor substrate. The buried insulating layer has an extension portion partially interposed between the channel region and the lower semiconductor substrate. | 12-04-2008 |
20080308845 | Heterogeneous Group IV Semiconductor Substrates - Embodiments of the present invention include heterogeneous substrates, integrated circuits formed on such heterogeneous substrates. The heterogeneous substrates according to certain embodiments of the present invention include a first Group IV semiconductor layer (e.g., silicon), a second Group IV pattern (e.g., a silicon-germanium pattern) that includes a plurality of individual elements on the first Group IV semiconductor layer, and a third Group IV semiconductor layer (e.g., a silicon epitaxial layer) on the second Group IV pattern and on a plurality of exposed portions of the first Group IV semiconductor layer. The second Group IV pattern may be removed in embodiments of the present invention. In these and other embodiments of the present invention, the third Group IV semiconductor layer may be planarized. | 12-18-2008 |
20090275177 | SEMICONDUCTOR DEVICE WITH MULTIPLE CHANNELS AND METHOD OF FABRICATING THE SAME - A semiconductor device with multiple channels includes a semiconductor substrate and a pair of conductive regions spaced apart from each other on the semiconductor substrate and having sidewalls that face to each other. A partial insulation layer is disposed on the semiconductor substrate between the conductive regions. A channel layer in the form of at least two bridges contacts the partial insulation layer, the at least two bridges being spaced apart from each other in a first direction and connecting the conductive regions with each other in a second direction that is at an angle relative to the first direction. A gate insulation layer is on the channel layer, and a gate electrode layer on the gate insulation layer and surrounding a portion of the channel layer. | 11-05-2009 |
20100012990 | MOSFETS INCLUDING CRYSTALLINE SACRIFICIAL STRUCTURES - A sub-micron channel length MOSFET includes a seamless epitaxial channel region in a substrate of the MOSFET and a buried device isolation layer beneath the seamless epitaxial channel region. In some embodiments according to the invention, a buried device isolation layer includes the buried device isolation layer beneath a central portion of the seamless epitaxial channel and absent from sidewalls of source/drain regions of the MOSFET. | 01-21-2010 |
20100035398 | Field effect transistor and method for manufacturing the same - A field effect transistor (FET) and a method for manufacturing the same, in which the FET may include an isolation film formed on a semiconductor substrate to define an active region, and a gate electrode formed on a given portion of the semiconductor substrate. A channel layer may be formed on a portion of the gate electrode, with source and drain regions formed on either side of the channel layer so that boundaries between the channel layer and the source and drain regions of the FET may be perpendicular to a surface of the semiconductor substrate. | 02-11-2010 |
20100109087 | Multichannel Metal Oxide Semiconductor (MOS) Transistors - Unit cells of metal oxide semiconductor (MOS) transistors are provided including an integrated circuit substrate an a MOS transistor on the integrated circuit substrate. The MOS transistor includes a source region, a drain region and a gate. The gate is positioned between the source region and the drain region. A horizontal channel is provided between the source and drain regions. The horizontal channel includes at least two spaced apart horizontal channel regions. Related methods of fabricating MOS transistors are also provided. | 05-06-2010 |
20100237401 | GATE STRUCTURES OF SEMICONDUCTOR DEVICES - Gate structures of semiconductor devices and methods of forming gate structures of semiconductor devices are provided. A first insulating pattern may be disposed on an active region of a semiconductor substrate. A data storage pattern may be disposed on the first insulating pattern. A second insulating pattern may be disposed on the data storage pattern and may contact the data storage pattern. A first conductive pattern may conform to the second insulating pattern and to sidewalls of a mold comprising the second insulating pattern. A second conductive pattern may be disposed within a cavity defined by the first conductive pattern. Spacers may be formed on sidewalls of at least one of the first insulating pattern, the data storage pattern, the second insulating pattern, and the conductive pattern. | 09-23-2010 |
20100314604 | Gate-all-around type semiconductor device and method of manufacturing the same - The gate-all-around (GAA) type semiconductor device may include source/drain layers, a nanowire channel, a gate electrode and an insulation layer pattern. The source/drain layers may be disposed at a distance in a first direction on a semiconductor substrate. The nanowire channel may connect the source/drain layers. The gate electrode may extend in a second direction substantially perpendicular to the first direction. The gate electrode may have a height in a third direction substantially perpendicular to the first and second directions and may partially surround the nanowire channel. The insulation layer pattern may be formed between and around the source/drain layers on the semiconductor substrate and may cover the nanowire channel and a portion of the gate electrode. Thus, a size of the gate electrode may be reduced, and/or a gate induced drain leakage (GIDL) and/or a gate leakage current may be reduced. | 12-16-2010 |
20110189829 | METHODS OF FABRICATING NONVOLATILE MEMORY DEVICES HAVING STACKED STRUCTURES - A memory device includes a first active region on a substrate and first and second source/drain regions on the substrate abutting respective first and second sidewalls of the first active region. A first gate structure is disposed on the first active region between the first and second source/drain regions. A second active region is disposed on the first gate structure between and abutting the first and second source/drain regions. A second gate structure is disposed on the second active region overlying the first gate structure. | 08-04-2011 |
20110233523 | SINGLE ELECTRON TRANSISTOR - A single electron transistor includes source/drain layers disposed apart on a substrate, at least one nanowire channel connecting the source/drain layers, a plurality of oxide channel areas in the nanowire channel, the oxide channel areas insulating at least one portion of the nanowire channel, a quantum dot in the portion of the nanowire channel insulated by the plurality of oxide channel areas, and a gate electrode surrounding the quantum dot. | 09-29-2011 |
20120058613 | FIELD EFFECT TRANSISTOR AND METHOD FOR MANUFACTURING THE SAME - A field effect transistor (FET) and a method for manufacturing the same, in which the FET may include an isolation film formed on a semiconductor substrate to define an active region, and a gate electrode formed on a given portion of the semiconductor substrate. A channel layer may be formed on a portion of the gate electrode, with source and drain regions formed on either side of the channel layer so that boundaries between the channel layer and the source and drain regions of the FET may be perpendicular to a surface of the semiconductor substrate. | 03-08-2012 |