Patent application number | Description | Published |
20080200008 | BONDING INTERFACE QUALITY BY COLD CLEANING AND HOT BONDING - The invention relates to improvements in a method for molecularly bonding first and second substrates together by placing them in surface to surface contact. The improvement includes, prior to placing the substrates in contact, cleaning the surface of one or both of the substrates in a manner to provide a cleaned surface that is slightly roughened compared to a conventionally polished surface, and heating at least one or both of the substrates prior to placing the substrates in contact while retaining the heating at least until the substrates are in surface to surface contact. | 08-21-2008 |
20080237804 | QUALITY OF A THIN LAYER THROUGH HIGH-TEMPERATURE THERMAL ANNEALING - A method for forming a structure is provided and includes implanting an atomic species into a donor substrate having an upper surface at a given depth relative to the upper surface to form an embrittlement zone in the donor substrate, the embrittlement zone defining a removable layer within the donor substrate. The method further includes assembling the upper surface of the donor substrate to a receiver substrate. Additionally, the method includes detaching the removable layer from the donor substrate at the embrittlement zone, thereby forming a detachment surface on the removable layer, by high temperature annealing. The high temperature annealing includes a temperature upgrade phase to a predetermined maximum temperature, maintaining the maximum temperature for a predetermined exposure duration, and a temperature downgrade phase. The maximum temperature and the exposure duration are selected so as to prevent the appearance of significant defects at the detachment surface. | 10-02-2008 |
20100093152 | METHOD OF BONDING TWO SUBSTRATES - The invention relates to a method of forming a structure comprising a thin layer of semiconductor material transferred from a donor substrate onto a second substrate, wherein two different atomic species are co-implanted under certain conditions into the donor substrate so as to create a weakened zone delimiting the thin layer to be transferred. The two different atomic species are implanted so that their peaks have an offset of less than 200 Å in the donor substrate, and the substrates are bonded together after roughening at least one of the bonding surfaces. | 04-15-2010 |
20100105217 | DEFECTIVITY OF POST THIN LAYER SEPARATION BY MODIFICATION OF ITS SEPARATION ANNEALING - A method of detaching two substrates at the embrittlement zone situated at a given depth of one of the two substrates. The method includes a separation annealing step implemented in a furnace, wherein the annealing includes a first phase during which the temperature changes along an upgrade allowing a high temperature to be reached and annealing at this high temperature to be stabilized, and a second phase during which the temperature changes along a downgrade, at the end of which the furnace is opened to unload the substrates from the furnace. The second phase is regulated so as to minimize temperature inhomogeneities such as cleavage defects at the detached surfaces of the substrates when the furnace is opened. | 04-29-2010 |
20100279487 | METHOD FOR TRANSFERRING A LAYER FROM A DONOR SUBSTRATE ONTO A HANDLE SUBSTRATE - The invention relates to a method for transferring a layer from a donor substrate onto a handle substrate wherein, after detachment, the remainder of the donor substrate is reused. To get rid of undesired protruding edge regions which are due to the chamfered geometry of the substrates, the invention proposes to carry out an additional etching process before detachment occurs. | 11-04-2010 |
20100304507 | METHOD OF PRODUCING A STRUCTURE BY LAYER TRANSFER - The invention relates to a method of producing a semiconductor structure by transferring a layer of a donor substrate to a receiver substrate, with the creation of an embrittlement zone in the donor substrate to define the transfer layer, and the treatment of the surface of one of the substrates to increase the bonding strength between them, followed by the direct wafer bonding of the substrates and the detachment of the donor substrate at the embrittlement zone to form the semiconductor structure, in which the surface of the receiver substrate, except for a peripheral crown, is covered with the transferred layer. The treatment of the substrate surface is controlled so that the bonding strength between the substrates is lower in a peripheral area than in a central area. The peripheral area has a width at least equal to the that of the crown and less than 10 mm. | 12-02-2010 |
20110140244 | METHOD FOR ROUTING A CHAMFERED SUBSTRATE - The invention relates to a method for routing a chamfered substrate, having applications in the field of electronics, optics, or optoelectronics, which involves depositing a layer of a protective material on a peripheral annular zone of the substrate preferably with the aid of a plasma, partially etching the protective material with the aid of a plasma, so as to preserve a protective ring of the deposited material on the front face of the substrate, this ring located at a distance from the edge of the substrate, so as to delimit an accessible peripheral annular zone, etching a thickness of the material constituting the substrate to be routed, preferably with the aid of a plasma that is level with the accessible peripheral annular zone of the substrate, and removing the ring of protective material preferably with the aid of a plasma. | 06-16-2011 |
20120021613 | FINISHING METHOD FOR A SILICON ON INSULATOR SUBSTRATE - The invention relates to a finishing method for a silicon-on-insulator (SOI) substrate that includes an oxide layer buried between an active silicon layer and a support layer of silicon. The method includes applying the following steps in succession: a first rapid thermal annealing (RTA) of the SOI substrate; a sacrificial oxidation of the active silicon layer of the substrate conducted to remove a first oxide thickness; a second RTA of the substrate; and a second sacrificial oxidation of the active silicon layer conducted to remove a second oxide thickness that is thinner than the first oxide thickness. | 01-26-2012 |
20130005122 | METHOD FOR FINISHING A SUBSTRATE OF THE SEMICONDUCTOR-ON-INSULATOR TYPE - The invention relates to finishing a substrate of the semiconductor-on-insulator (SeOI) type comprising an insulator layer buried between two semiconducting material layers. The method successively comprises:
| 01-03-2013 |
20130295696 | METHOD FOR TRANSFERRING A LAYER FROM A DONOR SUBSTRATE ONTO A HANDLE SUBSTRATE - The invention relates to a method for transferring a layer from a donor substrate onto a handle substrate wherein, after detachment, the remainder of the donor substrate is reused. To get rid of undesired protruding edge regions which are due to the chamfered geometry of the substrates, the invention proposes to carry out an additional etching process before detachment occurs. | 11-07-2013 |
20150014822 | METHOD OF TESTING A SEMICONDUCTOR ON INSULATOR STRUCTURE AND APPLICATION OF SAID TEST TO THE FABRICATION OF SUCH A STRUCTURE - The invention concerns a method of testing a semiconductor on insulator type structure comprising a support substrate, a dielectric layer having a thickness of less than 50 nm and a semiconductor layer, the structure comprising a bonding interface between the dielectric layer and the support substrate or the semiconductor layer or inside the dielectric layer, characterized in that it comprises measuring the charge to breakdown (Q | 01-15-2015 |