摘要:
The invention provides an inkjet printing apparatus that includes at least one inkjet print head adapted to dispense fluids onto a substrate and at least one delivery aperture adapted to direct a gas toward the substrate. The apparatus may also include at least one recovery aperture adapted to draw materials away from the substrate and evaporate liquids from the surface of the substrate.
摘要:
In a first aspect, a first apparatus is provided for inkjet printing. The first apparatus includes an inkjet head support that includes a plurality of inkjet heads. A first inkjet head of the plurality of inkjet heads is adapted to be independently moveable in both directions along a lateral axis relative to a second inkjet head of the plurality of inkjet heads. The first apparatus also includes a system controller adapted to control an independent lateral movement of the first inkjet head relative to the second inkjet head. Numerous other aspects are provided.
摘要:
In a first aspect, a system is provided. The system includes (1) a stage adapted to move a substrate relative to print heads during printing; (2) at least one print head suspended from a support above the stage and adapted to be moveable in a plane above the stage; (3) a controller operable to rotate the print head about a center of the print head; and (4) an imaging system adapted to capture an image of the print head and to determine a center point of the print head based upon images of the print head captured as the print head is rotated. Numerous other aspects are provided.
摘要:
In a first aspect, a system is provided. The system includes (1) a stage adapted to move a substrate relative to print heads during printing; (2) at least one print head suspended from a support above the stage and adapted to be moveable in a plane above the stage; (3) a controller operable to rotate the print head about a center of the print head; and (4) an imaging system adapted to capture an image of the print head and to determine a center point of the print head based upon images of the print head captured as the print head is rotated. Numerous other aspects are provided.
摘要:
Green inks for displays are provided. In one aspect, the green inks include one or more green organic pigments, one or more monomers, one or more polymeric dispersants, and one or more organic solvents. In another aspect, the green inks include one or more green organic pigments, one or more yellow pigments, one or more monomers, one or more oligomers, one or more polymeric dispersants, and one or more organic solvents. Methods of forming displays that include dispensing the green inks by inkjetting onto a substrate and displays that include the green inks are also provided.
摘要:
Blue inks for displays are provided. In one aspect, the blue inks include one or more blue organic pigments, one or more monomers, one or more polymeric dispersants, and one or more organic solvents. In another aspect, the blue inks include one or more blue organic pigments, one or more violet pigments, one or more monomers, one or more polymeric dispersants, and one or more organic solvents. Methods of forming displays that include dispensing the blue inks by inkjetting onto a substrate and displays that include the blue inks are also provided.
摘要:
The present invention provides inkjet print nozzle calibration systems and methods for calibrating an inkjet print nozzle. The systems may include an inkjet print nozzle adapted to dispense ink onto a substrate in response to a firing pulse voltage, a light source adapted to illuminate the dispensed ink, an imaging system adapted to measure a transmittance of light through the dispensed ink, and a controller adapted to controllably adjust the inkjet print nozzle based on the measured light transmittance. The methods may include dispensing ink onto a surface with an inkjet print nozzle set at a firing pulse voltage, measuring a light transmittance characteristic of the dispensed ink, determining a volume of ink dispensed based on the transmittance characteristic, and adjusting a fire pulse voltage of the inkjet print nozzle based on a difference between the determined volume of ink dispensed and an expected volume level of ink dispensed.
摘要:
A method for supporting a glass substrate comprising providing a substrate support having an aluminum body, a substrate contact area formed on the surface of the substrate support, wherein the process of forming the substrate contact area comprises forming an anodization layer on a surface region of the aluminum body, the coating having a thickness of between about 0.3 mils and about 2.16 mils, wherein the surface region substantially corresponds to the substrate contact area, and preparing the anodization layer disposed over the surface region to a surface roughness between about 88 micro-inches and about 230 micro-inches, followed by anodizing the substrate surface to said thickness, positioning the substrate support adjacent a substrate processing region in a substrate processing chamber, wherein the substrate contact area is adjacent the substrate processing region, positioning the glass substrate on the substrate contact area.
摘要:
Embodiments of an ink jet printing system include a motion stage adapted to move a substrate having a display object in a printing direction and a first printing assembly mounted over the motion stage including a set of print heads aligned and arranged consecutively in the printing direction such that the display object moves under the print heads sequentially. Embodiments of a method of ink jet printing include moving a substrate under the print heads of printing assembly sequentially in a printing direction, activating alternate ink jetting channels within each print head of the first printing assembly, activating corresponding channels within adjacent print heads in the first printing assembly alternately, and depositing ink in alternating sub-pixels within one or more pixels on the substrate.
摘要:
A system and method for processing large area substrates. In one embodiment, a system for processing large area substrates includes prep station, a stamping station and a stamp that is automatically moved between the stamping station and the prep station. The stamping station is adapted to retain a large area substrate thereon. The stamp has a patterned bottom surface that is adapted for microcontact printing. The prep station is for applying a precursor to the patterned bottom surface of the stamp. In one embodiment, a method for processing large area substrates includes the steps of disposing a large area substrate on a platen, inking a stamp adapted for microcontact printing, and automatically contacting a bottom of the stamp to the large area substrate supported on a platen.