Patent application number | Description | Published |
20100052104 | METHOD FOR FABRICATING A LOCALLY PASSIVATED GERMANIUM-ON-INSULATOR SUBSTRATE - The invention relates to a method for fabricating a locally passivated germanium-on-insulator substrate wherein, in order to achieve good electron mobility, nitridized regions are provided at localised positions. Nitridizing is achieved using a plasma treatment. The resulting substrates also form part of the invention. | 03-04-2010 |
20100221891 | METHOD OF PRODUCING A HYBRID SUBSTRATE BY PARTIAL RECRYSTALLIZATION OF A MIXED LAYER - A method of producing a hybrid substrate includes preparing a monocrystalline first substrate to obtain two surface portions. A temporary substrate is prepared including a mixed layer along which extends one surface portion and is formed of first areas and adjacent different second areas of amorphous material, the second areas forming at least part of the free surface of the first substrate. The first substrate is bonded to the other surface portion with the same crystal orientation as the first surface portion, by molecular bonding over at least the amorphous areas. A solid phase recrystallization of at least part of the amorphous areas according to the crystal orientation of the first substrate is selectively carried and the two surface portions are separated. | 09-02-2010 |
20110163410 | METHOD FOR PRODUCING HYBRID COMPONENTS - A method for producing a hybrid substrate, including a support substrate, a continuous buried insulator layer and, on this continuous layer, a hybrid layer including alternating zones of a first material and at least one second material, wherein these two materials are different by their nature and/or their crystallographic characteristics. The method forms a hybrid layer, including alternating zones of first and second materials, on a homogeneous substrate, assembles this hybrid layer, the continuous insulator layer and the support substrate, and eliminates a part at least of the homogeneous substrate, before or after the assembling. | 07-07-2011 |
20110201177 | METHOD IN THE MICROELECTRONICS FIELDS OF FORMING A MONOCRYSTALLINE LAYER - A process for forming a thin film of a given material includes providing a first substrate having, on the surface, an amorphous and/or polycrystalline film of the given material and a second substrate is bonded to the first substrate by hydrophobic direct bonding (molecular adhesion), the second substrate having a single-crystal reference film of a given crystallographic orientation on the surface thereof. A heat treatment is applied at least to the amorphous and/or polycrystalline film, where the heat treatment causes at least a portion of the amorphous and/or polycrystalline film to undergo solid-phase recrystallization along the crystallographic orientation of the reference film, where the reference film acts as a recrystallization seed. The at least partly recrystallized film is then separated from at least a portion of the reference film. | 08-18-2011 |
20110207293 | METHOD OF PRODUCING A HYBRID SUBSTRATE HAVING A CONTINUOUS BURIED EECTRICALLY INSULATING LAYER - A method for producing a hybrid substrate includes preparing a first substrate including a mixed layer and an underlying electrically insulating continuous layer, the mixed layer made up of first single-crystal areas and second adjacent amorphous areas, the second areas making up at least part of the free surface of the first substrate. A second substrate is bonded to the first substrate, the second substrate including on the surface thereof, a reference layer with a predetermined crystallographic orientation. The first substrate is bonded to the second substrate by hydrophobic molecular bonding of at least the amorphous areas. A recrystallisation of at least part of the amorphous areas to solid phase is carried out according to the crystallographic orientation of the reference layer, and the two substrates are separated at the bonding interface. | 08-25-2011 |
20130134547 | METHOD FOR FABRICATING A LOCALLY PASSIVATED GERMANIUM-ON-INSULATOR SUBSTRATE - The invention relates to a method for fabricating a locally passivated germanium-on-insulator substrate wherein, in order to achieve good electron mobility, nitridized regions are provided at localised positions. Nitridizing is achieved using a plasma treatment. The resulting substrates also form part of the invention. | 05-30-2013 |