Patent application number | Description | Published |
20090315154 | SEMICONDUCTOR WITH THROUGH-SUBSTRATE INTERCONNECT - Semiconductor devices are described that have a metal interconnect extending vertically through a portion of the device to the back side of a semiconductor substrate. A top region of the metal interconnect is located vertically below a horizontal plane containing a metal routing layer. Method of fabricating the semiconductor device can include etching a via into a semiconductor substrate, filling the via with a metal material, forming a metal routing layer subsequent to filling the via, and removing a portion of a bottom of the semiconductor substrate to expose a bottom region of the metal filled via. | 12-24-2009 |
20100003782 | Methods Of Forming A Non-Volatile Resistive Oxide Memory Cell And Methods Of Forming A Non-Volatile Resistive Oxide Memory Array - A method of forming a non-volatile resistive oxide memory cell includes forming a first conductive electrode of the memory cell as part of a substrate. Metal oxide-comprising material is formed over the first conductive electrode. Etch stop material is deposited over the metal oxide-comprising material. Conductive material is deposited over the etch stop material. A second conductive electrode of the memory cell which comprises the conductive material received is formed over the etch stop material. Such includes etching through the conductive material to stop relative to the etch stop material and forming the non-volatile resistive oxide memory cell to comprise the first and second conductive electrodes having both the metal oxide-comprising material and the etch stop material therebetween. Other implementations are contemplated. | 01-07-2010 |
20110220980 | MEMORY HAVING BURIED DIGIT LINES AND METHODS OF MAKING THE SAME - A memory array having memory cells and methods of forming the same. The memory array may have a buried digit line formed in a first horizontal planar volume, a word line formed in a second horizontal planar volume above the first horizontal planar volume and storage devices formed on top of the vertical access devices, such as finFETs, in a third horizontal planar volume above the second horizontal planar volume. The memory array may have a 4F | 09-15-2011 |
20110220994 | Method of Forming a DRAM Array of Devices with Vertically Integrated Recessed Access Device and Digitline - A method is disclosed for forming a memory device having buried access lines (e.g., wordlines) and buried data/sense lines (e.g., digitlines) disposed below vertical cell contacts. The buried wordlines may be formed trenches in a substrate extending in a first direction, and the buried digitlines may be formed from trenches in a substrate extending in a second direction perpendicular to the first direction. The buried digitlines may be coupled to a silicon sidewall by a digitline contact disposed between the digitlines and the silicon substrate. | 09-15-2011 |
20110241205 | SEMICONDUCTOR WITH THROUGH-SUBSTRATE INTERCONNECT - Semiconductor devices are described that have a metal interconnect extending vertically through a portion of the device to the back side of a semiconductor substrate. A top region of the metal interconnect is located vertically below a horizontal plane containing a metal routing layer. Method of fabricating the semiconductor device can include etching a via into a semiconductor substrate, filling the via with a metal material, forming a metal routing layer subsequent to filling the via, and removing a portion of a bottom of the semiconductor substrate to expose a bottom region of the metal filled via. | 10-06-2011 |
20120314171 | DISPLAY DEVICES HAVING ELECTROLESSLY PLATED CONDUCTORS AND METHODS - In one or more embodiments, display devices having electrolessly plated conductors and methods are disclosed. One such embodiment is directed to a method of forming a reflective pixel array for a display device, including forming a plurality of conductive pads, each of the conductive pads corresponding to a reflective pixel, and electrolessly plating each of the conductive pads with a reflective conductor. | 12-13-2012 |
20130314967 | MEMORY HAVING BURIED DIGIT LINES AND METHODS OF MAKING THE SAME - A memory array having memory cells and methods of forming the same. The memory array may have a buried digit line formed in a first horizontal planar volume, a word line formed in a second horizontal planar volume above the first horizontal planar volume and storage devices formed on top of the vertical access devices, such as finFETs, in a third horizontal planar volume above the second horizontal planar volume. The memory array may have a 4F | 11-28-2013 |
20140138604 | METHODS FOR FORMING NARROW VERTICAL PILLARS AND INTEGRATED CIRCUIT DEVICES HAVING THE SAME - In some embodiments, an integrated circuit includes narrow, vertically-extending pillars that fill openings formed in the integrated circuit. In some embodiments, the openings can contain phase change material to form a phase change memory cell. The openings occupied by the pillars can be defined using crossing lines of sacrificial material, e.g., spacers, that are formed on different vertical levels. The lines of material can be formed by deposition processes that allow the formation of very thin lines. Exposed material at the intersection of the lines is selectively removed to form the openings, which have dimensions determined by the widths of the lines. The openings can be filled, for example, with phase change material. | 05-22-2014 |
20140231894 | METHOD OF FORMING A DRAM ARRAY OF DEVICES WITH VERTICALLY INTEGRATED RECESSED ACCESS DEVICE AND DIGITLINE - A method is disclosed for forming a memory device having buried access lines (e.g., wordlines) and buried data/sense lines (e.g., digitlines) disposed below vertical cell contacts. The buried wordlines may be formed trenches in a substrate extending in a first direction, and the buried digitlines may be formed from trenches in a substrate extending in a second direction perpendicular to the first direction. The buried digitlines may be coupled to a silicon sidewall by a digitline contact disposed between the digitlines and the silicon substrate. | 08-21-2014 |