Patent application number | Description | Published |
20090176338 | FULLY-DEPLETED (FD)(SOI) MOSFET ACCESS TRANSISTOR AND METHOD OF FABRICATION - A fully-depleted (FD) Silicon-on-Insulator (SOI) MOSFET access transistor comprising a gate electrode of a conductivity type which is opposite the conductivity type of the source/drain regions and a method of fabrication are disclosed. | 07-09-2009 |
20100012995 | LOCALIZED BIASING FOR SILICON ON INSULATOR STRUCTURES - A silicon-on-insulator device has a localized biasing structure formed in the insulator layer of the SOI. The localized biasing structure includes a patterned conductor that provides a biasing signal to distinct regions of the silicon layer of the SOI. The conductor is recessed into the insulator layer to provide a substantially planar interface with the silicon layer. The conductor is connected to a bias voltage source. In an embodiment, a plurality of conductor is provided that respectively connected to a plurality of voltage sources. Thus, different regions of the silicon layer are biased by different bias signals. | 01-21-2010 |
20100295119 | VERTICALLY-ORIENTED SEMICONDUCTOR SELECTION DEVICE FOR CROSS-POINT ARRAY MEMORY - A vertical semiconductor material mesa upstanding from a semiconductor base that forms a conductive channel between first and second doped regions. The first doped region is electrically coupled to one or more first silicide layers on the surface of the base. The second doped region is electrically coupled to a second silicide layer on the upper surface of the mesa. A gate conductor is provided on one or more sidewalls of the mesa. | 11-25-2010 |
20100295120 | VERTICALLY-ORIENTED SEMICONDUCTOR SELECTION DEVICE PROVIDING HIGH DRIVE CURRENT IN CROSS-POINT ARRAY MEMORY - A vertical semiconductor material mesa upstanding from a semiconductor base that forms a conductive channel between first and second doped regions. The first doped region is electrically coupled to one or more first silicide layers on the surface of the base. The second doped region is electrically coupled to one of a plurality of second silicide layers on the upper surface of the mesa. A gate conductor is provided on one or more sidewalls of the mesa. | 11-25-2010 |
20110117725 | Methods of Forming Recessed Access Devices Associated with Semiconductor Constructions - The invention includes methods of forming recessed access devices. A substrate is provided to have recessed access device trenches therein. A pair of the recessed access device trenches are adjacent one another. Electrically conductive material is formed within the recessed access device trenches, and source/drain regions are formed proximate the electrically conductive material. The electrically conductive material and source/drain regions together are incorporated into a pair of adjacent recessed access devices. After the recessed access device trenches are formed within the substrate, an isolation region trench is formed between the adjacent recessed access devices and filled with electrically insulative material to form a trenched isolation region. | 05-19-2011 |
20120097913 | Integrated Circuitry Comprising Nonvolatile memory Cells And Methods Of Forming A Nonvolatile Memory Cell - An integrated circuit has a nonvolatile memory cell that includes a first electrode, a second electrode, and an ion conductive material there-between. At least one of the first and second electrodes has an electrochemically active surface received directly against the ion conductive material. The second electrode is elevationally outward of the first electrode. The first electrode extends laterally in a first direction and the ion conductive material extends in a second direction different from and intersecting the first direction. The first electrode is received directly against the ion conductive material only where the first and second directions intersect. Other embodiments, including method embodiments, are disclosed. | 04-26-2012 |
20120199939 | LOCALIZED BIASING FOR SILICON ON INSULATOR STRUCTURES - A silicon-on-insulator device has a localized biasing structure formed in the insulator layer of the SOI. The localized biasing structure includes a patterned conductor that provides a biasing signal to distinct regions of the silicon layer of the SOI. The conductor is recessed into the insulator layer to provide a substantially planar interface with the silicon layer. The conductor is connected to a bias voltage source. In an embodiment, a plurality of conductor is provided that respectively connected to a plurality of voltage sources. Thus, different regions of the silicon layer are biased by different bias signals. | 08-09-2012 |
20120326242 | Vertically-oriented semiconductor selection device providing high drive current in cross-point array memory - A vertical semiconductor material mesa upstanding from a semiconductor base that forms a conductive channel between first and second doped regions. The first doped region is electrically coupled to one or more first silicide layers on the surface of the base. The second doped region is electrically coupled to one of a plurality of second silicide layers on the upper surface of the mesa. A gate conductor is provided on one or more sidewalls of the mesa. | 12-27-2012 |