Patent application number | Description | Published |
20100264485 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - This invention provides a method of manufacturing a semiconductor device, which comprises the steps of: forming a first columnar semiconductor layer on a first flat semiconductor layer; forming a first semiconductor layer of a second conductive type in a lower portion of the first columnar semiconductor layer; forming a first insulating film around a lower sidewall of the first columnar silicon layer; forming a gate insulating film and a gate electrode around the first columnar silicon layer; forming a sidewall-shaped second insulating film to surround an upper sidewall of the first columnar silicon layer; forming a semiconductor layer of a first conductive type between the first semiconductor layer of the second conductive type and a second semiconductor layer of the second conductive type; and forming a metal-semiconductor compound on an upper surface of the first semiconductor layer of the second conductive type. | 10-21-2010 |
20110012090 | SILICON-GERMANIUM NANOWIRE STRUCTURE AND A METHOD OF FORMING THE SAME - A silicon-germanium nanowire structure arranged on a support substrate is disclosed, The silicon-germanium nanowire structure includes at least one germanium-containing supporting portion arranged on the support substrate, at least one germanium-containing nanowire disposed above the support substrate and arranged adjacent the at least one germanium-containing supporting portion, wherein germanium concentration of the at least one germanium-containing nanowire is higher than the at least one germanium-containing supporting portion. A transistor comprising the silicon-germanium nanowire structure arranged on a support substrate is also provided. A method of forming a silicon-germanium nanowire structure arranged on a support substrate and a method of forming a transistor comprising forming the silicon-germanium nanowire structure arranged on a support substrate are also disclosed. | 01-20-2011 |
20110193183 | NANOWIRE SENSOR, NANOWIRE SENSOR ARRAY AND METHOD OF FABRICATING THE SAME - A method of fabricating a sensor comprising a nanowire on a support substrate with a first semiconductor layer arranged on the support substrate is disclosed. The method comprises forming a fin structure from the first semiconductor layer, the fin structure comprising at least two supporting portions and a fin portion arranged there between; oxidizing at least the fin portion of the fin structure thereby forming the nanowire being surrounded by a first layer of oxide; and forming an insulating layer above the supporting portions; wherein the supporting portions and the first insulating layer form a microfluidic channel. A nanowire sensor is also disclosed. The nanowire sensor comprises a support substrate, a semiconducting fin structure arranged on the support substrate, the fin structure comprising at least two semiconducting supporting portions and a nanowire arranged there between; and a first insulating layer on a contact surface of the supporting portions; wherein the supporting portions and the first insulating layer form a microfluidic channel. | 08-11-2011 |
20110303973 | SEMICONDUCTOR DEVICE AND PRODUCTION METHOD - The semiconductor device according to the present invention is an nMOS SGT and is composed of a first n+ type silicon layer, a first gate electrode containing metal and a second n+ type silicon layer arranged on the surface of a first columnar silicon layer positioned vertically on a first planar silicon layer. Furthermore, a first insulating film is positioned between the first gate electrode and the first planar silicon layer, and a second insulating film is positioned on the top surface of the first gate electrode. In addition, the first gate electrode containing metal is surrounded by the first n+ type silicon layer, the second n+ type silicon layer, the first insulating film and the second insulating film. | 12-15-2011 |
20120138437 | Switching device and a method for forming a switching device - Embodiments provide a switching device. The switching device includes a substrate, which includes a contact region. The switching device further includes a vertical layer arrangement extending from the substrate next to the contact region. The vertical layer arrangement includes a control layer. The switching device further includes a freestanding silicon cantilever extending vertically from the contact region. | 06-07-2012 |
20130020631 | Memory Cell and Method of Manufacturing a Memory Cell - A memory cell and a method of manufacturing a memory cell are provided. The memory cell includes a substrate; at least one first electrode disposed above the substrate; at least one second electrode disposed above the at least one first electrode; a moveable electrode disposed between the at least one first electrode and the at least one second electrode; wherein the moveable electrode is configured to move between the at least one first electrode and the at least one second electrode; wherein the moveable electrode comprises metal. | 01-24-2013 |
20130095625 | SEMICONDUCTOR DEVICE AND PRODUCTION METHOD THEREOF - A method for producing a semiconductor device includes preparing a structure having a substrate, a planar semiconductor layer and a columnar semiconductor layer, forming a second drain/source region in the upper part of the columnar semiconductor layer, forming a contact stopper film and a contact interlayer film, and forming a contact layer on the second drain/source region. The step for forming the contact layer includes forming a pattern and etching the contact interlayer film to the contact stopper film using the pattern to form a contact hole for the contact layer and removing the contact stopper film remaining at the bottom of the contact hole by etching. The projection of the bottom surface of the contact hole onto the substrate is within the circumference of the projected profile of the contact stopper film formed on the top and side surface of the columnar semiconductor layer onto the substrate. | 04-18-2013 |
20130200327 | Resistive Memory Arrangement and a Method of Forming the Same - According to embodiments of the present invention, a resistive memory arrangement is provided. The resistive memory arrangement includes a nanowire, and a resistive memory cell including a resistive layer including a resistive changing material, wherein at least a section of the resistive layer is arranged covering at least a portion of a surface of the nanowire, and a conductive layer arranged on at least a part of the resistive layer. According to further embodiments of the present invention, a method of forming a resistive memory arrangement is also provided. | 08-08-2013 |
20130252413 | SURROUND GATE CMOS SEMICONDUCTOR DEVICE - The semiconductor device includes: a columnar silicon layer on the planar silicon layer; a first n+ type silicon layer formed in a bottom area of the columnar silicon layer; a second n+ type silicon layer formed in an upper region of the columnar silicon layer; a gate insulating film formed in a perimeter of a channel region between the first and second n+ type silicon layers; a gate electrode formed in a perimeter of the gate insulating film, and having a first metal-silicon compound layer; an insulating film formed between the gate electrode and the planar silicon layer, an insulating film sidewall formed in an upper sidewall of the columnar silicon layer; a second metal-silicon compound layer formed in the planar silicon layer; and an electric contact formed on the second n+ type silicon layer. | 09-26-2013 |
20130270508 | Non-Volatile Memory Device and Method of Forming the Same - According to embodiments of the present invention, a non-volatile memory device is provided. The non-volatile memory device includes a nanowire transistor including a nanowire channel, and a resistive memory cell arranged adjacent to the nanowire transistor and in alignment with a longitudinal axis of the nanowire channel. According to further embodiments of the present invention, a method of forming a non-volatile memory device is also provided. | 10-17-2013 |
20130328138 | METHOD FOR PRODUCING SEMICONDUCTOR DEVICE AND SEMICONDUCTOR DEVICE - A method for producing a semiconductor device includes a first step including forming a planar silicon layer and forming first and second pillar-shaped silicon layers; a second step including forming a gate insulating film around each of the first and second pillar-shaped silicon layers, forming a metal film and a polysilicon film around the gate insulating film, the thickness of the polysilicon film being smaller than half of a distance between the first and second pillar-shaped silicon layers, forming a third resist, and forming a gate line; and a third step including depositing a fourth resist so that a portion of the polysilicon film on an upper side wall of each of the first and second pillar-shaped silicon layers is exposed, removing the exposed portion of the polysilicon film, removing the fourth resist, and removing the metal film to form first and second gate electrodes. | 12-12-2013 |
20140091372 | METHOD FOR PRODUCING SEMICONDUCTOR DEVICE AND SEMICONDUCTOR DEVICE - In a first step, a planar silicon layer is formed on a silicon substrate and first and second pillar-shaped silicon layers are formed on the planar silicon layer; a second step includes forming an oxide film hard mask on the first and second pillar-shaped silicon layers, and forming a second oxide film on the planar silicon layer, the second oxide film being thicker than a gate insulating film; and a third step includes forming the gate insulating film around each of the first pillar-shaped silicon layer and the second pillar-shaped silicon layer, forming a metal film and a polysilicon film around the gate insulating film, the polysilicon film having a thickness that is smaller than one half a distance between the first pillar-shaped silicon layer and the second pillar-shaped silicon layer, forming a third resist for forming a gate line, and performing anisotropic etching to form the gate line. | 04-03-2014 |
20140147955 | METHOD OF ENCAPSULATING A MICRO-ELECTROMECHANICAL (MEMS) DEVICE - A method for encapsulating a micro-electromechanical (MEMS) device, the method comprising: providing a sacrificial layer arrangement over the MEMS device; providing a first encapsulation layer over the sacrificial layer arrangement, the first encapsulation layer defining at least one aperture; providing a second encapsulation layer over the at least one aperture, the second encapsulation layer being provided to allow removal of the sacrificial layer arrangement around the second encapsulation layer; and removing the sacrificial layer arrangement through the at least one aperture to allow the second encapsulation layer to cover the at least one aperture thereby encapsulating the MEMS device. | 05-29-2014 |