Abstract: A polishing station for polishing a substrate using a polishing slurry is disclosed. The polishing station includes a substrate carrier having a substrate-receiving surface and a rotatable platen having a polishing pad disposed on a platen surface, where the polishing pad has a polishing surface facing the substrate-receiving surface. The polishing station includes an electromagnetic assembly disposed over the platen surface. The electromagnetic assembly includes an array of electromagnetic devices that are each operable to generate a magnetic field that is configured to pass through the polishing surface. The magnetic fields generated by the array of electromagnetic devices are oriented and configured to induce an electromagnetic force on a plurality of charged particles disposed in a polishing slurry disposed on the polishing surface. The applied magnetic field is configured to induce movement of the plurality of charged particles in a direction parallel or orthogonal to the polishing surface.

Abstract: A polishing station for polishing a substrate using a polishing slurry is disclosed. The polishing station includes a substrate carrier having a substrate-receiving surface and a rotatable platen having a polishing pad disposed on a platen surface, where the polishing pad has a polishing surface facing the substrate-receiving surface. The polishing station includes an electromagnetic assembly disposed over the platen surface. The electromagnetic assembly includes an array of electromagnetic devices that are each operable to generate a magnetic field that is configured to pass through the polishing surface. The magnetic fields generated by the array of electromagnetic devices are oriented and configured to induce an electromagnetic force on a plurality of charged particles disposed in a polishing slurry disposed on the polishing surface. The applied magnetic field is configured to induce movement of the plurality of charged particles in a direction parallel or orthogonal to the polishing surface.

Abstract: Electrolytes for use in electric double-layer capacitors (EDLCs; often referred as supercapacitors or ultracapacitors) are disclosed. In one example, the electrolyte comprises viologen in both the anolyte and the catholyte (with bromide). In another example, the electrolyte comprises viologen (in the anolyte) and tetraalkylammonium with bromide (in the catholyte), wherein the tetraalkylammonium is used to achieve solid complexation of bromine in the activated carbon of the cathode. In a third example, a zinc bromine/tetraalkylammonium supercapacitor/battery hybrid is disclosed. Also disclosed is a corrosion resistant bipolar pouch cell that can be used with the electrolyte embodiments described herein.

Abstract: Electrolytes for use in electric double-layer capacitors (EDLCs; often referred as supercapacitors or ultracapacitors) are disclosed. In one example, the electrolyte comprises viologen in both the anolyte and the catholyte (with bromide). In another example, the electrolyte comprises viologen (in the anolyte) and tetraalkylammonium with bromide (in the catholyte), wherein the tetraalkylammonium is used to achieve solid complexation of bromine in the activated carbon of the cathode. In a third example, a zinc bromine/tetraalkylammonium supercapacitor/battery hybrid is disclosed. Also disclosed is a corrosion resistant bipolar pouch cell that can be used with the electrolyte embodiments described herein.

Abstract: An electrical double layer capacitor (EDLC) energy storage device is provided that includes at least two electrodes and a redox-enhanced electrolyte including two redox couples such that there is a different one of the redox couples for each of the electrodes. When charged, the charge is stored in Faradaic reactions with the at least two redox couples in the electrolyte and in a double-layer capacitance of a porous carbon material that comprises at least one of the electrodes, and a self-discharge of the energy storage device is mitigated by at least one of electrostatic attraction, adsorption, physisorption, and chemisorption of a redox couple onto the porous carbon material.

Abstract: An electrical double layer capacitor (EDLC) energy storage device is provided that includes at least two electrodes and a redox-enhanced electrolyte including two redox couples such that there is a different one of the redox couples for each of the electrodes. When charged, the charge is stored in Faradaic reactions with the at least two redox couples in the electrolyte and in a double-layer capacitance of a porous carbon material that comprises at least one of the electrodes, and a self-discharge of the energy storage device is mitigated by at least one of electrostatic attraction, adsorption, physisorption, and chemisorption of a redox couple onto the porous carbon material.

Abstract: The present invention relates to a novel crystalline polymorph form W of cabazitaxel and to method for the preparation thereof.