Patent application number | Description | Published |
20090014708 | SEMICONDUCTOR DEVICE - A nonvolatile, sophisticated semiconductor device with a small surface area and a simple structure capable of switching connections between three or more electrodes. In a semiconductor device at least one of the electrodes contains atoms such as copper or silver in the solid electrolyte capable of easily moving within the solid electrolyte, and those electrodes face each other and applying a voltage switches the voltage on and off by generating or annihilating the conductive path between the electrodes. Moreover applying a voltage to a separate third electrode can annihilate the conductive path formed between two electrodes without applying a voltage to the two electrode joined by the conductive path. | 01-15-2009 |
20090039336 | SEMICONDUCTOR DEVICE - The performance of a semiconductor device capable of storing information is improved. A memory layer of a memory element is formed by a first layer at a bottom electrode side and a second layer at a top electrode side. The first layer contains 20-70 atom % of at least one element of a first element group of Cu, Ag, Au, Al, Zn, and Cd, contains 3-40 atom % of at least one element of a second element group of V, Nb, Ta, Cr, Mo, W, Ti, Zr, Hf, Fe, Co, Ni, Pt, Pd, Rh, Ir, Ru, Os, and lanthanoid elements, and contains 20-60 atom % of at least one element of a third element group of S, Se, and Te. The second layer contains 5-50 atom % of at least one element of the first element group, 10-50 atom % of at least one element of the second element group, and 30-70 atom % of oxygen. | 02-12-2009 |
20090052231 | SEMICONDUCTOR DEVICE - A semiconductor device capable of high-speed read and has a high data-retention characteristic is provided. In a semiconductor device including a memory array having a plurality of memory cells provided at intersecting points of a plurality of word lines and a plurality of bit lines, where each memory cell includes an information memory section and a select element, when information is programmed by a first pulse (reset operation) for programming information flowing in the bit line and a second pulse (set operation) different from the first pulse and information is read by a third pulse (read operation), current directions of the second pulse and the third pulse are opposite to each other. | 02-26-2009 |
20090242868 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A solid electrolyte memory involves a problem that stable rewriting is difficult since the amount of ions in the solid electrolyte and the shape of the electrode are changed by repeating rewriting. In a semiconductor device in which information is stored or the circuit connection is changed by the change of resistance of the solid electrolyte layer, the solid electrolyte layer includes a composition, for example, of Cu—Ta—S and an ion supply layer in adjacent or close therewith as Cu—Ta—O, in which ions supplied from the ion supply layer form a conduction path in the solid electrolyte layer thereby making it possible to store information by the level of the resistance and applying the electric pulse to change the resistance, in which the ion supply layer includes crystals having, for example, a compositional ratio of: Cu—Ta—O=1:2:6 and rewriting operation can be performed stably. | 10-01-2009 |
20100012917 | SEMICONDUCTOR DEVIC - On an insulating film ( | 01-21-2010 |
20100061132 | SEMICONDUCTOR STORAGE DEVICE - In a semiconductor storage device such as a phase change memory, a technique which can realize high integration is provided. The semiconductor storage device includes a phase change thin film | 03-11-2010 |
20100096613 | SEMICONDUCTOR DEVICE - A phase change memory is formed of a plug buried within a through-hole in an insulating film formed on a semiconductor substrate, an interface layer formed on the insulating film in which the plug is buried, a recording layer formed of a chalcogenide layer formed on the interface layer, and an upper contact electrode formed on the recording layer. The recording layer storing information according to resistance value change is made of chalcogenide material containing indium in an amount range from 20 atomic % to 38 atomic %, germanium in a range from 9 atomic % to 28 atomic %, antimony in a range from 3 atomic % to 18 atomic %, and tellurium in a range from 42 atomic % to 63 atomic %, where the content of germanium larger than or equal to the content of antimony. | 04-22-2010 |
20110049454 | SEMICONDUCTOR DEVICE - In a phase-change memory, an interface layer is inserted between a chalcogenide material layer and a plug. The interface layer is arranged so as not to cover the entire interface of a plug-like electrode. When the plug is formed at an upper part than the chalcogenide layer, the degree of integration is increased. The interface layer is formed by carrying out sputtering using an oxide target, or, by forming a metal film by carrying out sputtering using a metal target followed by oxidizing the metal film in an oxidation atmosphere such as oxygen radical, oxygen plasma, etc. | 03-03-2011 |