Patent application number | Description | Published |
20090050871 | SEMICONDUCTOR DEVICE AND PROCESS FOR PRODUCING THE SAME - A semiconductor device having a phase-change memory cell comprises an interlayer dielectric film formed of, for example, SiOF formed on a select transistor formed on a main surface of a semiconductor substrate, a chalcogenide material layer formed of, for example, GeSbTe extending on the interlayer dielectric film, and a top electrode formed on the chalcogenide material layer. A fluorine concentration in an interface between the interlayer dielectric film and the chalcogenide material layer is higher than a fluorine concentration in an interface between the chalcogenide material layer and the top electrode. | 02-26-2009 |
20100012917 | SEMICONDUCTOR DEVIC - On an insulating film ( | 01-21-2010 |
20100015755 | MANUFACTURING METHOD OF SEMICONDUCTOR MEMORY DEVICE - In a step of forming an InGeSbTe film which contains GeSbTe made of germanium (Ge), antimony (Sb) and tellurium (Te) as its base material and to which indium (In) is added, an InGeSbTe film is formed by sputtering on a semiconductor substrate while keeping a temperature of the semiconductor substrate between an in-situ crystallization temperature of GeSbTe serving as the base material and an in-situ crystallization temperature of InGeSbTe. As a result, it is possible to suppress the failure that the phase separation occurs in the InGeSbTe film during the following manufacturing process. | 01-21-2010 |
20100044672 | SEMICONDUCTOR MEMORY - Manufacturing processes for phase change memory have suffered from the problem of chalcogenide material being susceptible to delamination, since this material exhibits low adhesion to high melting point metals and silicon oxide films. Furthermore, chalcogenide material has low thermal stability and hence tends to sublime during the manufacturing process of phase change memory. According to the present invention, conductive or insulative adhesive layers are formed over and under the chalcogenide material layer to enhance its delamination strength. Further, a protective film made up of a nitride film is formed on the sidewalls of the chalcogenide material layer to prevent sublimation of the chalcogenide material layer. | 02-25-2010 |
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 |
20110215288 | SEMICONDUCTOR STORAGE DEVICE AND MANUFACTURING METHOD THEREOF - Since a chalcogenide material has low adhesion to a silicon oxide film, there is a problem in that it tends to separate from the film during the manufacturing step of a phase change memory. In addition, since the chalcogenide material has to be heated to its melting point or higher during resetting (amorphization) of the phase change memory, there is a problem of requiring extremely large rewriting current. An interfacial layer includes an extremely thin insulator or semiconductor having the function as both an adhesive layer and a high resistance layer (thermal resistance layer) is inserted between chalcogenide material layer/interlayer insulative film and between chalcogenide material layer/plug. | 09-08-2011 |
20120074377 | SEMICONDUCTOR MEMORY - Manufacturing processes for phase change memory have suffered from the problem of chalcogenide material being susceptible to delamination, since this material exhibits low adhesion to high melting point metals and silicon oxide films. Furthermore, chalcogenide material has low thermal stability and hence tends to sublime during the manufacturing process of phase change memory. According to the present invention, conductive or insulative adhesive layers are formed over and under the chalcogenide material layer to enhance its delamination strength. Further, a protective film made up of a nitride film is formed on the sidewalls of the chalcogenide material layer to prevent sublimation of the chalcogenide material layer. | 03-29-2012 |
20120077325 | SEMICONDUCTOR MEMORY - Manufacturing processes for phase change memory have suffered from the problem of chalcogenide material being susceptible to delamination, since this material exhibits low adhesion to high melting point metals and silicon oxide films. Furthermore, chalcogenide material has low thermal stability and hence tends to sublime during the manufacturing process of phase change memory. According to the present invention, conductive or insulative adhesive layers are formed over and under the chalcogenide material layer to enhance its delamination strength. Further, a protective film made up of a nitride film is formed on the sidewalls of the chalcogenide material layer to prevent sublimation of the chalcogenide material layer. | 03-29-2012 |
20120241715 | SEMICONDUCTOR MEMORY - Manufacturing processes for phase change memory have suffered from the problem of chalcogenide material being susceptible to delamination, since this material exhibits low adhesion to high melting point metals and silicon oxide films. Furthermore, chalcogenide material has low thermal stability and hence tends to sublime during the manufacturing process of phase change memory. According to the present invention, conductive or insulative adhesive layers are formed over and under the chalcogenide material layer to enhance its delamination strength. Further, a protective film made up of a nitride film is formed on the sidewalls of the chalcogenide material layer to prevent sublimation of the chalcogenide material layer. | 09-27-2012 |