Patent application number | Description | Published |
20080318928 | BENGAMIDES WITH A SUBSTITUTED CAPROLACTAM CYCLE, METHOD FOR THE PREPARATION THEREOF, COMPOSITIONS CONTAINING THEM AND USE THEREOF - The invention relates to the preparation of substituted caprolactams, a method for the preparation thereof, compositions containing them and the use thereof as a medicament, particularly as anticancer agents. | 12-25-2008 |
20090075971 | DERIVATIVES OF 2-ALKOXY-3,4,5-TRIHYDROXY-ALKYL AMIDES, PREPARATION AND USE THEREOF, AND COMPOSITIONS CONTAINING THE SAME - The present invention relates to 2-alkoxy-3,4,5-trihydroxyalkylamide derivatives, to pharmaceutical compositions comprising such compounds, to methods of treatment comprising administering such compounds, to processes for the preparation of such compounds, and to intermediate precursors to such compounds. | 03-19-2009 |
20090082426 | DIMERS OF ARTEMISININ DERIVATIVES, PREPARATION THEREOF AND THERAPEUTIC USE THEREOF - The present invention relates to dimers of artemisinin derivatives, to processes for the preparation of such dimers, to methods of treatment comprising administration of such dimers, and to intermediates to such dimers. | 03-26-2009 |
20090093459 | 2-ALKOXY-3,4,5-TRIHYDROXYALKYLAMIDE-BENZOTHIAZEPINES PREPARATION THEREOF, COMPOSITIONS CONTAINING THEM AND USE THEREOF - The present invention relates to 2-alkoxy-3,4,5-trihydroxyalkylamide benzothiazepine compounds, to pharmaceutical compositions comprising such compounds, to methods of treatment comprising administering such compounds, to processes for the preparation of such compounds and to intermediate precursors to such compounds. | 04-09-2009 |
20090099152 | 2-ALKOXY-3,4,5-TRIHYDROXY-ALKYLAMIDE-BENZAZEPINES, THE PREPARATION AND USE THEREOF, AND COMPOSITIONS CONTAINING THE SAME - The present invention relates to 2-alkoxy-3,4,5-trihydroxyalkylamide benzodiazepine compounds, to pharmaceutical compositions comprising such compounds, to methods of treatment comprising administering such compounds, to processes for the preparation of such compounds, and to intermediate precursors to such compounds. | 04-16-2009 |
20120225089 | NOVEL CONJUGATES, PREPARATION THEREOF, AND THERAPEUTIC USE THEREOF - Provided herein are cryptophycin conjugates and compositions containing them. Methods of making and using such compounds also are provided. | 09-06-2012 |
Patent application number | Description | Published |
20090058295 | FLAT COPLANAR-DISCHARGE LAMP AND USES OF SAME - A flat discharge lamp transmitting radiation in ultraviolet or visible, including first and second flat, or substantially flat, glass elements substantially parallel to each other and defining an internal space filled with gas, the first and/or second glass element being made of a material that transmits the radiation; at least one first electrode and at least one second electrode, which may be at different potentials and may be supplied by an AC voltage, the first and second electrodes being associated with one or more main faces of the first glass element, the first and second electrodes being essentially elongate and substantially parallel to one another, and separated by at least one interelectrode space of given width substantially constant; and at least one third electrode which may be at a given potential associated with a main face of the second glass element and at least partly occupying, in projection, the interelectrode space. | 03-05-2009 |
20090179547 | FLAT UV LAMP WITH COPLANAR DISCHARGE AND USES THEREOF - A flat lamp transmitting radiation in UV (ultraviolet), including first and second flat or substantially flat glass elements substantially parallel to each other and defining an internal space filled with gas capable of emitting the radiation in the UV or of exciting a phosphor material possibly present and emitting the radiation in the UV. The phosphor material can be deposited on one face of the first and/or second glass element, the first and/or second glass element being made of a material transmitting the UV radiation. A plurality of pairs of electrodes are capable of being at different potentials and of being supplied by an AC voltage, the pairs associated with the first glass element and placed outside the internal space, the electrodes being in a form of bands and/or wires in the first glass element or in another dielectric element associated with the first glass element. | 07-16-2009 |
20090322202 | SUBSTANTIALLY FLAT LUMINOUS AND/OR UV STRUCTURE - A flat or substantially flat light-emitting and/or UV (ultraviolet)-emitting structure including first and second dielectric walls facing each other and defining an internal space containing a light source, first and second electrodes for the light source, which generate electric field lines with at least one component perpendicular to the first and second electrodes, the first electrode being supplied or capable of being supplied by a high-frequency electromagnetic signal f | 12-31-2009 |
20100140511 | FLAT DISCHARGE LAMP - The present invention relates to a flat discharge lamp ( | 06-10-2010 |
20100253207 | FLAT UV DISCHARGE LAMP, USES AND MANUFACTURE - The invention relates to a flat lamp ( | 10-07-2010 |
20120262918 | LIGHTING UNIT HAVING LIGHT-EMITTING DIODES - A lighting device includes light-emitting diodes as illuminating light sources and arranged on a support, and a receptacle housing the support of the diodes and closed by a glass substrate facing the diodes. The receptacle and the fastener to fasten the support to the receptacle, are made of a thermally conductive material. Furthermore, a scattering device to scatter light is arranged at least in zones located facing the diodes, and a reflector of light is arranged in the receptacle. The lighting device is thus thin, highly effective, and causes very little dazzle. | 10-18-2012 |
20130039059 | LUMINOUS MULTIPLE GLAZING UNIT COMPRISING LIGHT-EMITTING DIODES - A luminous multiple glazing unit including: first and second flat glass elements; light-emitting diodes located in an internal space; a reflector including a part fixed to the glazing unit in the internal space; and a first luminous zone associated with the first glass element. In a first configuration, the reflector has a central reflective area for reflecting at least 30% of total flux emitted by the diodes in the group onto a first mechanism scattering light, or, in a second configuration, the reflector forms a beam splitter and has a double-image central reflective area of a first central area for reflecting first central rays onto a first mechanism scattering light and a second central area for reflecting second central rays onto a second scattering mechanism, the reflector reflecting at least 30% of total flux emitted by the diodes in the group. | 02-14-2013 |
20130229612 | MULTIPLE GLAZING WITH VARIABLE SCATTERING BY LIQUID CRYSTALS AND ITS METHOD OF MANUFACTURE - A multiple glazing with variable scattering by liquid crystals includes first and second flat float glass sheets sealed on the edge of their internal faces by a sealing joint, in particular made of a given sealing material, in particular essentially organic, first and second electrodes, and a layer of liquid crystals with an average thickness E between 15 and 60 μm inclusive of these values and incorporating spacers. The thickness A of each of the first and second glass sheets is less than or equal to 5.5 mm, and each of the internal faces coated with the first and second electrodes has a dioptric defect score, expressed in millidioptres, of less than 12E/15 where the thickness E of the liquid crystals is in μm. | 09-05-2013 |
20130265511 | MULTIPLE GLAZING HAVING VARIABLE DIFFUSION BY LIQUID CRYSTALS, AND METHOD FOR MANUFACTURING SAME - A liquid-crystal multiple glazing including a first glass sheet and a second glass sheet that is sealed by a sealing gasket, first and second electrodes with first and second electricity supply zones, a liquid-crystal layer, between 15 and 60 μm, with spacers, the first glass sheet protruding by a first protruding side and including the first electricity supply zone, electrical cabling with a first cabling input with a first electrically insulating polymer material, a third glass sheet laminated with the second glass sheet, the third glass sheet protruding from the second glass sheet by a side covering the first electrically insulating material, referred to as the first covering side. | 10-10-2013 |
20140153220 | LIGHTING UNIT MADE UP OF AN INSULATING GLASS PANEL AND LIGHT-EMITTING DIODES - A lighting unit includes a glass panel including at least two spaced sheets of glass, and a lighting system based on light-emitting diodes the light-emitting portion of which is disposed facing each of the edge surfaces of the sheets of glass and carried by at least one section associated at least with the edge surface of the glass panel. The section is associated with the edge surface of the glass panel without creating thermal bridges. It is attached against the edge surface of the glass panel or demountably fixed to it. | 06-05-2014 |
20140375915 | MULTIPLE GLAZING WITH VARIABLE DIFFUSION BY LIQUID CRYSTALS AND METHOD OF MANUFACTURE THEREOF - A multiple glazing with variable scattering by liquid crystals can have first and second flat float glass sheets held on the edge of their internal faces by a joint made of a given joint material. In some examples, the glazing also includes first and second electrodes and a layer of liquid crystals with an average thickness E between 5 and 15 μm. The thickness of each of the first and second glass sheets may be less than or equal to 6.5 mm and each of the internal faces coated with the first and second electrodes may have a dioptric defect score, expressed in millidioptres, of less than or equal to 2+2E/3, where the thickness E of the liquid crystals is in μm. | 12-25-2014 |
20150049270 | POWER SUPPLY OF AN ELECTRICALLY CONTROLLABLE LIQUID CRYSTAL GLAZING, AND METHOD FOR POWERING SUCH A GLAZING - An electrically-controlled liquid crystal glazing unit can include a substrate carrying a liquid crystal element disposed between a first electrode and a second electrode connected to an electrical power supply. The liquid crystal element can transform from a diffusing state at zero voltage to a transparent and/or colored state at a sinusoidal AC voltage having an operating amplitude (V | 02-19-2015 |
20150098037 | MULTIPLE GLAZING WITH VARIABLE SCATTERING BY LIQUID CRYSTALS AND ITS METHOD OF MANUFACTURE - A multiple glazing with variable scattering by liquid crystals includes first and second flat float glass sheets sealed on the edge of their internal faces by a sealing joint, in particular made of a given sealing material, in particular essentially organic, first and second electrodes, and a layer of liquid crystals with an average thickness E between 15 and 60 μm inclusive of these values and incorporating spacers. The thickness A of each of the first and second glass sheets is less than or equal to 5.5 mm, and each of the internal faces coated with the first and second electrodes has a dioptric defect score, expressed in millidioptres, of less than 12 E/15 where the thickness E of the liquid crystals is in μm. | 04-09-2015 |
20150116638 | MULTIPLE GLAZING WITH VARIABLE DIFFUSION BY LIQUID CRYSTALS - A liquid-crystal multiple glazing can have a first glass sheet and a second glass sheet held by a gasket referred to as the contact gasket. In some examples, the multiple glazing includes first and second electrodes with first and second electricity supply zones and a liquid-crystal layer with spacers having a thickness of between 5 and 15 μm. Additionally, the first glass sheet may protrude by a first protruding side and include the first electricity supply zone. Further, the glazing may have electrical cabling with a first cabling input with a first electrically insulating polymer material. | 04-30-2015 |
20150138489 | METHOD FOR PRODUCING A MULTIPLE GLAZING UNIT WITH VARIABLE DIFFUSION BY PDLC LAYER AND A MULTIPLE GLAZING UNIT WITH A PDLC LAYER PRODUCED ACCORDING TO SAID METHOD - A method for producing a multiple glazing unit with variable diffusion by liquid crystals can include applying a pre-seal on an internal face of a first substrate to form a strip delimiting a space. The method can further include depositing a liquid crystal composition containing liquid crystals in a polymer matrix on the delimited space. In some examples, the first substrate is assembled with a second substrate and calendared or pressed. Thereafter, the resulting assembly is irradiated and/or heated to simultaneously cross-link the pre-seal and polymerize the liquid crystal composition. | 05-21-2015 |