Patent application number | Description | Published |
20090061594 | METHOD OF DETACHING A THIN FILM BY MELTING PRECIPITATES - A method of fabricating a thin film from a substrate includes implantation into the substrate, for example made of silicon, of ions of a non-gaseous species, for example gallium, the implantation conditions and this species being chosen, according to the material of the substrate, so as to allow the formation of precipitates confined in a certain depth, distributed within a layer, these precipitates being made of a solid phase having a melting point below that of the substrate. The method optionally further including intimate contacting of this face of the substrate with a stiffener, and detachment of a thin film by fracturing the substrate at the layer of precipitates by applying a mechanical and/or chemical detachment stress under conditions in which the precipitates are in the liquid phase. | 03-05-2009 |
20100025228 | Method for Preparing Thin GaN Layers by Implantation and Recycling of a Starting Substrate - A method for preparing a thin layer of GaN from a starting substrate in which at least one thick surface area extending along a free face of the starting substrate includes GaN, where the method includes bombarding the free face of the substrate with helium and hydrogen atoms, the helium being implanted first into the thickness of the thick surface area and the hydrogen being implanted thereafter, and where the helium and hydrogen doses each vary between 1.1017 atoms/cm2 and 4.1017 atoms/cm2. The starting substrate is subjected to a rupture process in order to induce the separation, relative to a residue of the starting substrate, of the entire portion of the thick area located between the free face and the helium and hydrogen implantation depth. The helium is advantageously implanted in a dose at least equal to that of hydrogen, and can also be implanted alone. | 02-04-2010 |
20100216294 | METHOD OF FABRICATING A MICROELECTRONIC STRUCTURE INVOLVING MOLECULAR BONDING - Method of fabricating a microelectronic structure includes preparing a first structure having a first material different from silicon on a surface thereof and forming at least one covering layer of a second material by IBS (ion beam sputtering) and having a thickness of less than one micron, where the at least one cover layer has a free surface and molecular bonding the free surface to one face of a second structure where the at least one covering layer constitutes a bonding layer for the first and second structures. | 08-26-2010 |
20110030889 | METHOD FOR TRANSFERRING A THIN LAYER BY PROTON EXCHANGE - A method for transferring a thin layer from a lithium-based first substrate includes proton exchange between the first substrate and a first electrolyte, which is an acid, through a free face of the first substrate so as to replace lithium ions of the first substrate by protons, in a proportion between 10% and 80%, over a first depth e | 02-10-2011 |
20110076836 | METHOD FOR THE ULTRASONIC PLANARIZATION OF A SUBSTRATE, FROM ONE SURFACE OF WHICH A BURIED WEAKENED LAYER HAS BEEN UNCOVERED BY FRACTURE - A method for forming a plurality of thin films from a microtechnological donar substrate with a view to recycling of the donor substrate, the method including exposing a face of the donor substrate by fracturing the donor substrate along a layer weakened by implantation and placing the exposed face in a bath and applying ultrasound with a frequency of between 10 kHz and 80 kHz under conditions suitable for causing cavitation along the exposed face. In the case of a silicon donor substrate, the bath is exposed to an ultrasound power per unit volume of greater than 5 W/I, at a power of greater than 10 W with a duration of greater than 1 minute, and at a temperature between 1° C. and 100° C. | 03-31-2011 |
20120088351 | METHOD FOR TRANSFERRING AT LEAST ONE MICRO-TECHNOLOGICAL LAYER - A method for transferring a micro-technological layer includes preparing a substrate having a porous layer buried beneath a useful surface, forming an embrittled zone between it and the surface, bonding the substrate to a supporting substrate, causing detachment at the porous layer by mechanical stress to obtain a first substrate remnant, and a bare surfaced detached layer joined to the supporting substrate, performing technological steps on the bared surface of the detached layer, bonding the detached layer, by the surface to which the technological steps had been applied, to a second supporting substrate, causing detachment, at the embrittled zone, by heat treatment to obtain a detached layer remnant joined to the second supporting substrate, and the detached layer remnant joined to the first supporting substrate. | 04-12-2012 |
20120138238 | METHOD FOR DETACHING A SILICON THIN FILM BY MEANS OF SPLITTING, USING TRIPLE IMPLANTATION - In order to detach a silicon thin film from a starting substrate by splitting, a step of implanting species within the starting substrate ( | 06-07-2012 |
20140113434 | PROCESS FOR FORMING A CRACK IN A MATERIAL - A process for forming a layer ( | 04-24-2014 |