Verdonck, BE
Emiel Verdonck, Berlaar BE
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20080295720 | Method For Making A Lithographic Printing Plate - A method for making a lithographic printing plate includes the steps of a) providing an aqueous fluid containing at least 2 weight % of a fluorosurfactant based on the total weight of the aqueous fluid wherein the fluorosurfactant has a phosphorous containing group capable of reacting with the surface of a lithographic printing plate precursor; and b) jetting the aqueous fluid on the surface of a lithographic printing plate precursor. | 12-04-2008 |
20080305263 | Method for Gumming a Lithographic Printing Plate - A method for gumming a lithographic printing plate includes the steps of a) providing a lithographic printing plate including a lithographic image consisting of printing areas and non-printing areas, and b) jetting a gum solution with an inkjet printer to produce a hydrophilic protective layer on the non-printing areas. An inkjet printer includes a gum solution for producing a hydrophilic protective layer on the non-printing areas and a fluid for the formation of the printing areas of a lithographic image on a lithographic printing plate precursor. | 12-11-2008 |
20090036638 | Contrast Dyes for Inkjet Lithographic Printing Plates - A contrast dye for preparing a lithographic printing plate includes at least one A, D, and B group wherein A represents a phosphorous containing group capable of reacting with the surface of a lithographic receiver; D represents a chromophore group absorbing light between 400 nm and 700 nm; and B represents an aliphatic group of at least 6 carbon atoms. A lithographic printing plate includes such a contrast dye. | 02-05-2009 |
20100039463 | WHITE INKJET INK IMPROVED FOR DISPERSION STABILITY - An inkjet printing method includes in order the steps of: a) providing to an inkjet printer one or more colorless liquids and a white ink including a pigment with a refractive index greater than 1.60; b) mixing the white ink in a controlled amount with the one or more colorless liquids to form a white ink-mixture wherein the viscosity is reduced by at least 5 mPa·s by reference to the white ink when measuring the viscosity at 40° C. with a Brookfield DV-II+Pro at 12 rotations per minute; and c) printing the white ink-mixture with the inkjet printer onto an ink-receiver. Additionally, a color inkjet ink set includes the one or more colorless liquids and the white ink, and an inkjet printer for use in the inkjet printing method. | 02-18-2010 |
20100302300 | WHITE INKJET INK IMPROVED FOR DISPERSION STABILITY - An inkjet printing method includes the steps of | 12-02-2010 |
20120277340 | WHITE INKJET INK IMPROVED FOR DISPERSION STABILITY - An inkjet printing method includes in order the steps of: a) providing to an inkjet printer one or more colorless liquids and a white ink including a pigment with a refractive index greater than 1.60; b) mixing the white ink in a controlled amount with the one or more colorless liquids to form a white ink-mixture wherein the viscosity is reduced by at least 5 mPa·s by reference to the white ink when measuring the viscosity at 40° C. with a Brookfield DV-II+Pro at 12 rotations per minute; and c) printing the white ink-mixture with the inkjet printer onto an ink-receiver. Additionally, a color inkjet ink set includes the one or more colorless liquids and the white ink, and an inkjet printer for use in the inkjet printing method. | 11-01-2012 |
20130096225 | WHITE INKJET INK IMPROVED FOR DISPERSION STABILITY - An inkjet printing method includes the steps of a) providing a white inkjet ink and at least one colour inkjet ink to an inkjet printer; and b) jetting the white inkjet ink at a higher temperature than the colour inkjet ink onto an ink-receiver. The difference in jetting temperature between the white inkjet ink and the colour inkjet ink is at least 5° C. Inkjet ink sets and inkjet printers are also disclosed. | 04-18-2013 |
Frank Verdonck, Sint-Gillis-Waas BE
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20130018175 | SINGLE VARIABLE DOMAIN ANTIBODIES AGAINST OX40L, CONSTRUCTS AND THERAPEUTIC USE - The present invention relates to immunoglobulin single variable domain sequences that are directed against (as de-fined herein) OX40L, as well as to compounds or constructs, and in particular proteins and polypeptides, that comprise or essentially consist of one or more such immunoglobulin single variable domain sequences. In particular these immunoglobulin single variable domain sequences can block binding of OX40L to OX40. The immunoglobulin single variable domains, compounds and constructs can be used for prophylactic, therapeutic or diagnostic purposes, such as for the treatment of inflammatory disease and/or disorder such as e.g. asthma, allergic asthma, chronic colitis, Crohn's disease, inflammatory bowel disease, and/or arthrosclerosis. | 01-17-2013 |
Frank Kamiel Delphina Verdonck, Sint-Gillis-Waas BE
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20130136748 | BIOLOGICAL MATERIALS RELATED TO HER3 - The present disclosure relates to amino acid sequences that are directed against (as defined herein) HER3, as well as to compounds or constructs, and in particular proteins and polypeptides, that comprise or essentially consist of one or more such amino acid sequences (also referred to herein as “amino acid sequences of the invention”, “compounds of the invention”, and “polypeptides of the invention”, respectively). The disclosure also relates to nucleic acids encoding such amino acid sequences and polypeptides (also referred to herein as “nucleic acids of the invention” or “nucleotide sequences of the invention”); to methods for 10 preparing such amino acid sequences and polypeptides; to host cells expressing or capable of expressing such amino acid sequences or polypeptides; to compositions, and in particular to pharmaceutical compositions, that comprise such amino acid sequences, polypeptides, nucleic acids and/or host cells; and to uses of such amino acid sequences or polypeptides, nucleic acids, host cells and/or compositions, in particular for prophylactic, therapeutic or diagnostic purposes, such as the prophylactic, therapeutic or diagnostic purposes mentioned herein. | 05-30-2013 |
Jef Verdonck, Beriaar BE
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20110093683 | Program flow control - A data processing apparatus includes a data engine | 04-21-2011 |
Jef Louis Verdonck, Berlaar BE
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20110093863 | Context switching in a data processing apparatus - A data engine that can be interrupted is disclosed, the data engine comprising plurality of elements for storing, routing and processing the data, the plurality of elements comprising: processing elements for processing the data; registers for storing the data being processed; the data processing engine being configured to receive a clock signal and in response to the clock signal to periodically transmit a plurality of the control signals to a corresponding plurality of the elements in parallel; the data engine further comprising: control circuitry configured in response to receipt of an external interrupt request: to pause transmission of the control signals to the elements and to transmit a copy of the register data stored in the plurality of registers to a store; to transmit in parallel a next plurality of the control signals in the stream of control signals to a corresponding plurality of the elements, and to transmit a copy of output data output by the processing elements in response to the next plurality of control signals to the store and to repeat the transmitting and copying procedure, such that the procedure is performed a number of times. The state of the engine has then been stored and to restore the state the control circuitry requests the stored register data from the store and restores the plurality of registers to store the register data; transmits the next plurality of control signals to the corresponding plurality of elements, and copies the output data received from the store corresponding to data previously output by the processing elements in response to the next plurality of control signals to output locations of the processing elements and repeats the transmitting and copying procedure such that the transmitting and copying procedure is performed the number of times; and then recommences the periodic transmission of the plurality of control signals to the corresponding plurality of the elements in parallel, in response to the clock signal. | 04-21-2011 |
Mac Gustaaf Celine Verdonck, Gierle BE
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20100240639 | Sulfonyl-Derivatives as Novel or Histone Deacetylase - This invention comprises the novel compounds of formula (I) | 09-23-2010 |
Marc Gustaaf Celine Verdonck, Beerse BE
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20090124646 | SUBSTITUTED INDOLYL ALKYL AMINO DERIVATIVES AS NOVEL INHIBITORS OF HISTONE DEACETYLASE - This invention comprises the novel compounds of formula (I) | 05-14-2009 |
Marc Gustaal Celine Verdonck, Gierle BE
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20120108603 | AMINOCARBONYL-DERIVATIVES AS NOVEL INHIBITORS OF HISTONE DEACETYLASE - This invention comprises the novel compounds of formula (I) | 05-03-2012 |
Patrick Verdonck, Wezembeek-Oppem BE
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20100216308 | METHOD FOR ETCHING 3D STRUCTURES IN A SEMICONDUCTOR SUBSTRATE, INCLUDING SURFACE PREPARATION - A method is provided for producing 3D structures in a semiconductor substrate using Deep Reactive Ion Etching (DRIE), comprising at least the steps of: providing a substrate, and then grinding the backside of the substrate in order to achieve a thinned substrate, wherein extrusions and native oxides are left after said grinding step, and then performing a surface treatment selected from the group consisting of a wet etching step and a dry etching step in order to remove at least said native oxides and extrusions on the surface of said backside of the substrate which are causes for the grass formation during subsequent etching, and then performing deep reactive ion etching in order to achieve 3D vias. | 08-26-2010 |
20110006406 | FABRICATION OF POROGEN RESIDUES FREE AND MECHANICALLY ROBUST LOW-K MATERIALS - A method is provided for producing a porogen-residue-free ultra low-k film with porosity higher than 50% and a high elastic modulus above 5 GPa. The method starts with depositing a SiCOH film using Plasma Enhanced Chemical Vapor Deposition (PE-CVD) or Chemical Vapor Deposition (CVD) onto a substrate and then first Performing an atomic hydrogen treatment at elevated wafer temperature in the range of 200° C. up to 350° C. to remove all the porogens and then performing a UV assisted thermal curing step. | 01-13-2011 |
Patrick Verdonck, Zaventem BE
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20140099796 | METHOD FOR DEVELOPING LOW DIELECTRIC CONSTANT FILM AND DEVICES OBTAINED THEREOF - A method for porogen removal of porous SiOCH film is provided, as well as devices obtained thereof. The devices and associated methods are in the field of advanced semiconductor interconnect technology, and more in particular in the development of dielectric films with low-k value. | 04-10-2014 |
Walter Verdonck, Hove BE
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20120016561 | METHOD FOR CONTROLLING A TORQUE TRANSMITTING DEVICE WITH LEARNING FUNCTION - Apparatus (control device) and a method for controlling a torque transmitting device such as a brake, wet clutch, dry clutch ( | 01-19-2012 |