Patent application number | Description | Published |
20110001304 | SLIDE BOARD FOR USE ON SNOW - Slide board for use on snow having in proximity to one of its front and/or rear ends, a point of maximum width located beyond the front and/or rear contact line, beyond which the board upturn is defined, said board comprising an internal structure including:
| 01-06-2011 |
20110169248 | Alpine Ski - A ski which when it is flat on a horizontal plane, and loaded at its waist in such a way that the edges touch said horizontal plane at the waist, has a side cut extending between the front and rear contact lines; when it is pivoted around its longitudinal axis and tilted by a non-zero angle α relative to said horizontal plane, and loaded at its waist in such a way that one of the edges touches said plane at the waist, has a side cut extending between two end contact points, front and rear respectively wherein for a tilt (α) equal to 35°, the ratio of the distance (Dα) separating the front end contact point and the front contact line, related to the distance (D) separating the mid-point ( | 07-14-2011 |
20110272922 | BOARD FOR SLIDING ON SNOW WITH SIDEWALLS OF VARIABLE WIDTH - A ski, monoski, or snowboard includes a central longitudinal core ( | 11-10-2011 |
20130140795 | SNOW GLIDING BOARD STRUCTURE ELEMENT, AND GLIDING BOARD INCORPORATING SUCH AN ELEMENT - A snow gliding board, integrating a structure element incorporated in a raised end of said gliding board, said element having a plurality of hollowed through openings between its upper and lower surfaces, distributed across its surface, wherein said element comprises in said raised end at least one region free of through openings, separating two areas having through openings, the width of said region being greater than the shortest distance between two through openings in the areas separated by said region. | 06-06-2013 |
Patent application number | Description | Published |
20090218226 | Separation device of molecules and production method thereof - Separation device of molecules and production method thereof. A molecule is separated from a liquid sample containing said molecule and at least one additional molecule having a larger hydrodynamic diameter than the hydrodynamic diameter of the molecule to be separated, by means of a separation device comprising a substrate, at least one circulation channel arranged in said substrate, and at least one nanotube associated with said molecule to be separated and formed on a free surface of the substrate. Separation is achieved by means of the internal channel of a nanotube, such as a carbon nanotube, presenting an effective diameter chosen in predetermined and controlled manner. The effective diameter of the internal channel is chosen such as to be larger than the hydrodynamic diameter of the molecule to be separated and smaller than the hydrodynamic diameter of the additional molecules of larger hydrodynamic diameters. | 09-03-2009 |
20110108424 | DEVICE FOR SEPARATING BIOMOLECULES FROM A FLUID - The device for separating biomolecules from a fluid comprises a microfluidic component provided with at least one microchannel having at least one of the walls supporting a plurality of nanotubes or nanowires. The component comprises at least one electrode electrically connected to at least a part of the nanotubes or nanowires and the device comprises means for applying a voltage between the electrode and the fluid. The nanotubes or nanowires are divided into several active areas in which the nanotubes or nanowires have a different density. | 05-12-2011 |
20120171682 | METHOD FOR DETECTING, IDENTIFYING AND/OR QUANTIFYING CARBON NANOTUBES - The present invention relates to a method and a kit for detecting, optionally identifying and optionally quantifying at least one carbon nanotube possibly included in a sample, including the steps consisting in: (a) subjecting said sample to conditions enabling the amplification of a nucleotide sequence using primers capable of amplifying said nucleotide sequence, the possibly included carbon nanotube having been functionalized by said nucleotide sequence prior to step (a), and (b) detecting, optionally identifying and optionally quantifying the amplification product possibly obtained after step (a). | 07-05-2012 |
20130125621 | SYSTEM FOR ANALYZING A GAS MIXTURE INCLUDING AT LEAST ONE CHROMATOGRAPHY COLUMN - A system for analyzing a gas mixture, including at least one chromatography column, a mechanism injecting the mixture into the column, and a mechanism detecting compound(s) forming the gas mixture, the detection mechanism including at least one detector of nanosensor type of an outlet of the column and a detector of nanosensor type in the column, capable of detecting passage of the compounds. It is then possible to determine the velocity of each of the compounds within the system. | 05-23-2013 |
20140008224 | METHOD AND MICROSYSTEM FOR DETECTING ANALYTES WHICH ARE PRESENT IN DROPS OF LIQUID - A detection method of detecting analytes of interest which are present in a liquid. The detection method including the steps of forming drops of liquid on a first surface by capillary breaking of a finger of liquid, which is initially formed by liquid dielectrophoresis. The thus formed drops each come into contact with a different detection surface, which is arranged facing the first surface. Analytes of interest which are present in each of the drops are detected at the corresponding detection surface. | 01-09-2014 |
20150020575 | SYSTEM FOR ANALYZING A GAS MIXTURE INCLUDING AT LEAST ONE CHROMATOGRAPHY COLUMN - A system for analyzing a gas mixture, including at least one chromatography column, a mechanism injecting the mixture into the column, and a mechanism detecting compound(s) forming the gas mixture, the detection mechanism including at least one detector of nanosensor type of an outlet of the column and a detector of nanosensor type in the column, capable of detecting passage of the compounds. It is then possible to determine the velocity of each of the compounds within the system. | 01-22-2015 |