Class / Patent application number | Description | Number of patent applications / Date published |
205080000 |
ELECTROLYTIC COATING (PROCESS, COMPOSITION AND METHOD OF PREPARING COMPOSITION)
| 1494 |
205775000 |
ELECTROLYTIC ANALYSIS OR TESTING (PROCESS AND ELECTROLYTE COMPOSITION)
| 1366 |
205334000 |
ELECTROLYTIC SYNTHESIS (PROCESS, COMPOSITION, AND METHOD OF PREPARING COMPOSITION)
| 1193 |
205687000 |
ELECTROLYTIC MATERIAL TREATMENT (PRODUCT, PROCESS, AND ELECTROLYTE COMPOSITION)
| 529 |
205050000 |
PRODUCT PRODUCED BY ELECTROLYSIS INVOLVING ELECTROLYTIC MARKING, BATTERY ELECTRODE ACTIVE MATERIAL FORMING, ELECTROFORMING, OR ELECTROLYTIC COATING
| 307 |
205640000 |
ELECTROLYTIC EROSION OF A WORKPIECE FOR SHAPE OR SURFACE CHANGE (E.G., ETCHING, POLISHING, ETC.) (PROCESS AND ELECTROLYTE COMPOSITION)
| 214 |
205067000 |
ELECTROFORMING OR COMPOSITION THEREFOR
| 81 |
205057000 |
UTILIZING ELECTROLYSIS TO FORM BATTERY ELECTRODE ACTIVE MATERIAL OR COMPOSITION THEREFOR
| 30 |
205043000 |
ELECTROLYTIC PROCESS INVOLVING ACTINIDE SERIES ELEMENTS OR COMPOUND (AT. NO. 89+) (PRODUCT, PROCESS, COMPOSITION, AND METHOD OF PREPARING COMPOSITION)
| 12 |
205799000 |
MISCELLANEOUS ELECTROLYSIS | 4 |
20080237066 | Electrolytic processing unit device, and method for electrolytic processing, washing, and drying - An electrolytic processing unit device includes an electrolytic processor for performing electrolytic processing on a wafer, a washer for washing the processed wafer, and a drier for drying the wafer. The electrolytic processor, the washer, and the drier are placed in one processing chamber to form one module. In this manner, the electrolytic processing procedure, the washing procedure, and the drying procedure for wafers can be continuously carried out in one place. | 10-02-2008 |
20090145781 | METHOD OF TREATING NANOPARTICLES USING A PROTON EXCHANGE MEMBRANE AND LIQUID ELECTROLYTE CELL - One embodiment of the invention includes an electrochemical cell including a proton exchange membrane and a method of treating nanoparticles using the same. | 06-11-2009 |
20100230298 | NANOPOROUS CARBON ACTUATOR AND METHODS OF USE THEREOF - An electrochemically driveable actuator according to one embodiment includes a nanoporous carbon aerogel composition capable of exhibiting charge-induced reversible strain when wetted by an electrolyte and a voltage is applied thereto. An electrochemically driven actuator according to another embodiment includes a nanoporous carbon aerogel composition wetted by an electrolyte; and a mechanism for causing charge-induced reversible strain of the composition. A method for electrochemically actuating an object according to one embodiment includes causing charge-induced reversible strain of a nanoporous carbon aerogel composition wetted with an electrolyte to actuate the object by the strain. | 09-16-2010 |
20110017612 | METHOD OF PREPARING A SWALLOWABLE CAPSULE COMPRISING A SENSOR - The inventions relates to a kit comprising a swallowable capsule ( | 01-27-2011 |
205052000 |
ELECTROLYTIC MARKING OR COMPOSITION THEREFOR | 4 |
20140360881 | ELECTRO-MARK PROCESS AND DECORATION OF METALLIC SURFACE AND RELATIVE DEVICE - A process of chemical electro-marking includes the operation of placing the metal surface to be decorated in a position of application in which there is a silk screen, an electrode with a suitable pad soaked with etching solution, interposed between the electrode and the metal surface to be treated with the decoration, drawing or writing; and includes a phase of preliminary application of the negative shape of the decoration, drawing or writing by means of a chemical product of protection of the metal surface being treated, on the metal surface itself and resistant to the action of electrochemical etching of the marking; the action of decoration by chemical electro-marking is performed by applying the silk screen which has no masking and is resistant to the etching action of the chemical solution used, for the specific metal of the treated surface; the motion of the electrode with said pad, driven to slide on the surface of the silk screen, as known in the art, therefore, does not act mechanically on the masking damaging it, but only due to the electrochemical action of marking in the zone momentarily affected by the electrode and not protected by said masking. | 12-11-2014 |
20140027290 | ELECTRO-CHEMICAL PROCESS FOR DECORATING ALUMINUM SURFACES - An electrochemical process for decorating a surface, includes marking by a screen or mask which can be subsequently removed to create a decoration including a design, mark or writing, by use of an electrochemical etching solution maintained between a surface to be decorated and an electrode exerting pressure, the surface and the electrode being connected to a generator of electrical current, a pad impregnated with the etching solution being placed between the surface and the electrode, to form a layer of oxide with a thickness of a few thousandths of a micrometer on the surface, and anodizing the decorated surface to form an other layer of oxide, the other layer of oxide being 10 micrometers in depth. The other layer of forms on the surface on which the decoration is applied, maintaining its morphology, and the layer of oxide limits a formation of the other layer of oxide, while at the same time acting upon and emphasizing the morphology of the decorated surface. | 01-30-2014 |
20140326606 | Method for Marking a Tool - A method is disclosed for marking a tool. The method includes the steps of providing a tool, providing a rustproof layer on the tool, providing a printed layer on the tool, and providing at least one electroplated layer on the tool. The step of providing the rustproof layer includes the step of electroplating or hot-dip galvanizing the tool. The thickness of the electroplated layer is larger than or identical to that of the colored layer. | 11-06-2014 |
20150014173 | MACHINE FOR THE ELECTRO-MARKING OF LARGE METALLIC SURFACES AND RELATIVE PROCESS - A machine for the electrochemical marking treatment of metallic surfaces, includes an electrode placed in sliding movement on the metallic surface to be treated, a buffer impregnated with etching solution for the specific metal in treatment, and an electric current circuit, suitable for electro-marking treatment of said metal, with a conductor connected to the electrode and the other conductor connected to the metallic surface in treatment; and presents to treat large metallic surfaces on plates, metal canvas or on metallic sheet in coil. The plate, canvas or the metallic sheet is placed in a electro-marking mechanism in a reciprocally movable way with respect to the electrode, in such a way to allow the electrode the electrochemical marking action on the surface to be treated even if the electrode is of limited size with respect to said surface, the electrode being movable in the and/or with the electro-marking mechanism, the buffer being impregnated with the etching solution at regular intervals, and the relative motion of the electrode on the surface being the combination of two longitudinal and transverse relative motions. | 01-15-2015 |
205051000 |
SUPERCONDUCTOR PREPARATION INVOLVING ELECTROLYTIC MARKING, ELECTROFORMING OR ELECTROLYTIC COATING, OR COMPOSITION THEREFOR | 1 |
20140353159 | ELECTROCHEMICAL METHOD OF LITHIUM IRON ARSENIC SUPERCONDUCTOR PREPARATION - A method and apparatus for producing lithium iron arsenic superconductor materials. An example of the method comprises providing at least one cathode comprised of iron arsenic, providing at least one anode comprised of a chemically inert material, placing the at least one cathode and at least one anode into an electrolyte comprised of molten lithium chloride and/or lithium bromide, and applying a voltage such that electrical current flows between the at least one anode and the at least one cathode. | 12-04-2014 |