Abstract: The present invention provides for modified reoviruses that carry ?-helical epitopes from a variety of pathogens, as well as methods of using such modified reoviruses to generate immune responses against those epitopes in hosts.

Abstract: A method for attaching a release paper to a backsheet having depressed regions.

Abstract: An electrochemical processor may include a head having a rotor configured to hold a workpiece, with the head moveable to position the rotor in a vessel. Inner and outer anodes are in inner and outer anolyte chambers within the vessel. An upper cup in the vessel, has a curved upper surface and inner and outer catholyte chambers. A current thief is located adjacent to the curved upper surface. Annular slots in the curved upper curved surface connect into passageways, such as tubes, leading into the outer catholyte chamber. Membranes may separate the inner and outer anolyte chambers from the inner and outer catholyte chambers, respectively.

Abstract: An electrochemical processor may include a head having a rotor configured to hold a workpiece, with the head moveable to position the rotor in a vessel. Inner and outer anodes are in inner and outer anolyte chambers within the vessel. An upper cup in the vessel, has a curved upper surface and inner and outer catholyte chambers. A current thief is located adjacent to the curved upper surface. Annular slots in the curved upper curved surface connect into passageways, such as tubes, leading into the outer catholyte chamber. Membranes may separate the inner and outer anolyte chambers from the inner and outer catholyte chambers, respectively.

Abstract: A method for embossing an absorbent article using a segmented anvil and attaching a release paper to a backsheet having depressed regions.

Abstract: In an electro processor for plating semiconductor wafers and similar substrates, a contact ring has a plurality of spaced apart contact fingers. A shield at least partially overlies the contact fingers. The shield changes the electric field around the outer edge of the workpiece and the contact fingers, which reduces or eliminates the negative aspects of using high thief electrode currents and seed layer deplating. The shield may be provided in the form of an annular ring substantially completely overlying and covering, and optionally touching the contact fingers.

Abstract: An electro-processing apparatus includes a rotor in a head, and a contact ring assembly on the rotor. The contact ring assembly may have one or more strips of contact fingers on a ring base, with contact fingers clamped into position on the ring base. The strips may have spaced apart projection openings, with the projections on the ring base extending into or through the projection openings. A shield ring may be attached to the ring base, to clamp the contact fingers in place, and/or to provide an electric field shield over at least part of the contact fingers. The contact fingers may be provided as a plurality of adjoining forks, with substantially each fork including at least two contact fingers.

Abstract: An electrochemical processor may include a head having a rotor configured to hold a workpiece, with the head moveable to position the rotor in a vessel. Inner and outer anodes are in inner and outer anolyte chambers within the vessel. An upper cup in the vessel, has a curved upper surface and inner and outer catholyte chambers. A current thief is located adjacent to the curved upper surface. Annular slots in the curved upper curved surface connect into passageways, such as tubes, leading into the outer catholyte chamber. Membranes may separate the inner and outer anolyte chambers from the inner and outer catholyte chambers, respectively.

Abstract: An electrochemical processor may include a head having a rotor configured to hold a workpiece, with the head moveable to position the rotor in a vessel. Inner and outer anodes are in inner and outer anolyte chambers within the vessel. An upper cup in the vessel, has a curved upper surface and inner and outer catholyte chambers. A current thief is located adjacent to the curved upper surface. Annular slots in the curved upper curved surface connect into passageways, such as tubes, leading into the outer catholyte chamber. Membranes may separate the inner and outer anolyte chambers from the inner and outer catholyte chambers, respectively.

Abstract: Apparatus and methods for electrochemically processing microfeature wafers. The apparatus can have a vessel including a processing zone in which a microfeature wafer is positioned for electrochemical processing. The apparatus further includes at least one counter electrode in the vessel that can operate as an anode or a cathode depending upon the particular plating or electropolishing application. The apparatus further includes a supplementary electrode and a supplementary virtual electrode. The supplementary electrode is configured to operate independently from the counter electrode in the vessel, and it can be a thief electrode and/or a de-plating electrode depending upon the type of process. The supplementary electrode can further be used as another counter electrode during a portion of a plating cycle or polishing cycle.

Abstract: A substrate or semiconductor wafer processing apparatus has an agitator plate adjacent to an upper end of a process vessel. A workpiece holder holds a workpiece in the vessel at a processing position above the agitator plate. A vertical actuator assembly supporting the agitator plate oscillates the agitator plate vertically. The agitator plate may also rotate while oscillating vertically. In one design, the agitator plate has a spiral vane and a spiral slot. In a related metal plating apparatus, electrodes and a dielectric field shaping unit are in the vessel, below the agitator plate, and a shield ring is adjacent to the upper end of the vessel, above the agitator plate.

Abstract: A method for attaching a release paper to a backsheet having depressed regions.

Abstract: A method for embossing an absorbent article using a segmented anvil and attaching a release paper to a backsheet having depressed regions.

Abstract: An embossed article having one or more adhesive patterns serving to operatively attach a release paper.

Abstract: In a workpiece processor, a head is moveable onto a bowl to form a process chamber. A workpiece can be cleaned in the processor by immersing the workpiece into a liquid bath in the bowl and then boiling the liquid. Vacuum may be applied to the chamber to reduce the pressure within the chamber, thereby reducing the boiling temperature of the liquid and allowing processing at lower temperatures. In a separate method for prewetting a workpiece, a humid gas is provided into the process chamber and condenses on the workpiece. In another separate method for wetting a workpiece, liquid water is provided into the bowl, with the workpiece above the liquid water. Water vapor is created in the process chamber by applying vacuum to the process chamber. The vapor wets the workpiece. The workpiece is then further wetted by submerging the workpiece into the liquid water.

Abstract: Embodiments of the invention generally provide for flow battery cells and systems containing a plurality of flow battery cells, and methods for improving metal plating within the flow battery cell, such as by flowing and exposing the catholyte to various types of cathodes. In one embodiment, a flow battery cell is provided which includes a cathodic half cell and an anodic half cell separated by an electrolyte membrane, wherein the cathodic half cell contains a plurality of cathodic wires extending perpendicular or substantially perpendicular to and within the catholyte pathway and in contact with the catholyte, and each of the cathodic wires extends parallel or substantially parallel to each other. In some examples, the plurality of cathodic wires may have at least two arrays of cathodic wires, each array contains at least one row of cathodic wires, and each row extends along the catholyte pathway.

Abstract: High performance flow batteries, based on alkaline zinc/ferro-ferricyanide rechargeable (“ZnFe”) and similar flow batteries, may include one or more of the following improvements. First, the battery design has a cell stack comprising a low resistance positive electrode in at least one positive half cell and a low resistance negative electrode in at least one negative half cell, where the positive electrode and negative electrode resistances are selected for uniform high current density across a region of the cell stack. Second, a flow of electrolyte, such as zinc species in the ZnFe battery, with a high level of mixing through at least one negative half cell in a Zn deposition region proximate a deposition surface where the electrolyte close to the deposition surface has sufficiently high zinc concentration for deposition rates on the deposition surface that sustain the uniform high current density.

Abstract: A processor for making porous silicon or processing other substrates has first and second chamber assemblies. The first and second chamber assemblies include first and second seals for sealing against a wafer, and first and second electrodes, respectively. The first and/or second seal is moveable towards and away from a wafer in the processor, to move between a wafer load/unload position, and a wafer process position. The first electrode may move along with the first seal, and the second electrode may move along with the second seal. A light source shines light onto the first side of the wafer. The processor may be pivotable from a substantially horizontal orientation, for loading and unloading a wafer, to a substantially vertical orientation, for processing a wafer.

Abstract: Reactors with agitators and methods for processing microfeature workpieces with such reactors. The agitators are capable of obtaining high, controlled mass-transfer rates that result in high quality surfaces and efficient wet chemical processes. The agitators generate high flow velocities in the fluid and contain the high energy fluid proximate to the surface of the workpiece to form high quality surfaces when cleaning, etching and/or depositing materials to/from a workpiece. The agitators also have short stroke lengths so that the footprints of the reactors are relatively small. As a result, the reactors are efficient and cost effective to operate. The agitators are also designed so that electrical fields in the processing solution can effectively operate at the surface of the workpiece.

Abstract: A processor for making porous silicon or processing other substrates has first and second chamber assemblies. The first and second chamber assemblies include first and second seals for sealing against a wafer, and first and second electrodes, respectively. The second seal is moveable towards and away from a wafer in the processor, to move between a wafer load/unload position, and a wafer process position. The second electrode may move with the second seal. A light source shines light onto the first side of the wafer. The processor may be pivotable from a substantially horizontal orientation, for loading and unloading a wafer, to a substantially vertical orientation, for processing a wafer.