Patent application number | Description | Published |
20100165048 | FORMING NOZZLES - Fluid ejection nozzles having a tapered section leading to a straight walled bore are described. Both the tapered section of the nozzle and the straight walled bore are formed from a single side of semiconductor layer so that the tapered section and the bore are aligned with one another, even when an array of nozzles are formed across a die and multiple dies are formed on a semiconductor substrate. | 07-01-2010 |
20110181664 | Forming Self-Aligned Nozzles - A method of forming a nozzle plate of a fluid ejection device includes performing a first etch from a first side of a wafer to form a tapered region, forming an oxide layer in the tapered region such that a depth of the oxide layer on the tapered walls is greater than a depth of the oxide layer on the floor, performing a second etch from the first side to remove the oxide layer from the floor and a portion of the oxide layer from the tapered wall, and performing a third etch from the first side to form an outlet passage having a straight wall. | 07-28-2011 |
20110242219 | Durable Non-Wetting Coating on Fluid Ejector - A method of forming a nozzle plate of a fluid ejection device includes etching a bore in the first side of the multi-layer substrate, depositing a liner in the bore, removing a layer from a second side of the multi-layer substrate, wherein the removing exposes a closed end of the liner, applying a non-wetting coating to the closed end of the liner and an area surrounding the closed end of the liner, and removing the closed end of the liner, wherein removing the closed end of the liner opens a nozzle. | 10-06-2011 |
20120234946 | FORMING NOZZLES - Fluid ejection nozzles having a tapered section leading to a straight walled bore are described. Both the tapered section of the nozzle and the straight walled bore are formed from a single side of semiconductor layer so that the tapered section and the bore are aligned with one another, even when an array of nozzles are formed across a die and multiple dies are formed on a semiconductor substrate. | 09-20-2012 |
20120248063 | FORMING A MEMBRANE HAVING CURVED FEATURES - Processes for making a membrane having a curved feature are disclosed. A profile-transferring substrate surface having a curved feature is created by vacuum bonding a membrane to a top surface of a substrate, where the top surface has a cavity formed therein. The surface of the membrane is exposed to a fluid pressure such that the membrane deforms and the undersurface of the membrane touches the bottom of the cavity. The curved feature formed in the deformed membrane can be made permanent by annealing the bonding areas between membrane and substrate. A uniform layer of material deposited over the exposed surface of the membrane will include a curved feature at the location where the membrane has bent into the cavity. After at least one layer of material has been uniformed deposited on the membrane, the cavity can be etched open from the bottom to remove the membrane from the underside. | 10-04-2012 |
20120252221 | FORMING CURVED FEATURES USING A SHADOW MASK - Processes for making a profile-transferring substrate surface and membranes having curved features are disclosed. A profile-transferring substrate surface having a curved feature is created by isotropic plasma etching through a shadow mask. The shadow mask has a through hole which has a lower portion adjacent to the bottom surface of the shadow mask and an upper portion that is above and narrower than the lower portion. The isotropic plasma etching through the shadow mask can create a curved dent in a planar substrate in a central portion of an area enclosed by the bottom opening. After the shadow mask is removed. A uniform layer of material deposited over the exposed surface of the substrate will include a curved feature at the location of the curved dent in the substrate surface. | 10-04-2012 |
20120262029 | FORMING A MEMBRANE HAVING CURVED FEATURES - Processes for making a membrane having a curved feature are disclosed. Recesses each in the shape of a reversed, truncated pyramid are formed in a planar substrate surface by KOH etching through a mask. An oxide layer is formed over the substrate surface. The oxide layer can be stripped leaving rounded corners between different facets of the recesses in the substrate surface, and the substrate surface can be used as a profile-transferring substrate surface for making a membrane having concave curved features. Alternatively, a handle layer is attached to the oxide layer and the substrate is removed until the backside of the oxide layer becomes exposed. The exposed backside of the oxide layer includes curved portions protruding away from the handle layer, and can provide a profile-transferring substrate surface for making a membrane having convex curved features. | 10-18-2012 |
20130052826 | High Aspect Ratio Grid for Phase Contrast X-ray Imaging and Method of Making the Same - Semiconductor substrates with high aspect ratio recesses formed therein are described. The high aspect ratio recesses have bottom surface profile characteristics that promote formation of initial growth sites of plated metal as compared to the side surfaces of the recesses. Processes for making and plating the recesses are also disclosed. The metal-plated high aspect ratio recesses can be used as X-ray gratings in Phase Contrast X-ray imaging apparatuses. | 02-28-2013 |
20130210175 | Forming a Device Having a Curved Piezoelectric Membrane - Processes for forming an actuator having a curved piezoelectric membrane are disclosed. The processes utilize a profile-transferring substrate having a curved surface surrounded by a planar surface to form the curved piezoelectric membrane. The piezoelectric material used for the piezoelectric actuator is deposited on at least the curved surface of the profile-transferring substrate before the profile-transferring substrate is removed from the underside of the curved piezoelectric membrane. The resulting curved piezoelectric membrane includes grain structures that are columnar and aligned, and all or substantially all of the columnar grains are locally perpendicular to the curved surface of the piezoelectric membrane. | 08-15-2013 |
20130264911 | FORMING A MEMBRANE HAVING CURVED FEATURES - Processes for making a membrane having a curved feature are disclosed. Recesses each in the shape of a reversed, truncated pyramid are formed in a planar substrate surface by KOH etching through a mask. An oxide layer is formed over the substrate surface. The oxide layer can be stripped leaving rounded corners between different facets of the recesses in the substrate surface, and the substrate surface can be used as a profile-transferring substrate surface for making a membrane having concave curved features. Alternatively, a handle layer is attached to the oxide layer and the substrate is removed until the backside of the oxide layer becomes exposed. The exposed backside of the oxide layer includes curved portions protruding away from the handle layer, and can provide a profile-transferring substrate surface for making a membrane having convex curved features. | 10-10-2013 |
20130286097 | Forming A Funnel-Shaped Nozzle - Techniques are provided for making a funnel-shaped nozzle in a semiconductor substrate. The funnel-shaped recess includes a straight-walled bottom portion and a curved top portion having a curved sidewall gradually converging toward and smoothly joined to the straight-walled bottom portion, and the curved top portion encloses a volume that is substantially greater than a volume enclosed by the straight-walled bottom portion. | 10-31-2013 |
20130344630 | Durable Non-Wetting Coating on Fluid Ejector - A method of forming a nozzle plate of a fluid ejection device includes etching a bore in the first side of the multi-layer substrate, depositing a liner in the bore, removing a layer from a second side of the multi-layer substrate, wherein the removing exposes a closed end of the liner, applying a non-wetting coating to the closed end of the liner and an area surrounding the closed end of the liner, and removing the closed end of the liner, wherein removing the closed end of the liner opens a nozzle. | 12-26-2013 |
20140022304 | Forming A Funnel-Shaped Nozzle - Techniques are provided for making a funnel-shaped nozzle in a semiconductor substrate. The funnel-shaped recess includes a straight-walled bottom portion and a curved top portion having a curved sidewall gradually converging toward and smoothly joined to the straight-walled bottom portion, and the curved top portion encloses a volume that is substantially greater than a volume enclosed by the straight-walled bottom portion. | 01-23-2014 |