Patent application number | Description | Published |
20130255072 | METHOD OF MANUFACTURING PRISMATIC BATTERY - Provided is a method of manufacturing a prismatic battery, or a series of prismatic batteries. The method comprises stacking positive electrode plates, negative electrode plates and separator layers therebetween. The positive and negative electrode plates extend beyond a periphery of the electrode stack. The positive electrode plates are fused to form a positive current collector, and the negative electrode plates are fused to form a negative current collector. | 10-03-2013 |
20130333205 | Rechargeable ZnMn Flat Plate Electrode Cell - Provided is a flat plate electrode cell, comprises positive electrode plates and negative electrode plates. The positive electrode plates each comprise manganese and compressed metal foam. The negative electrode plates each comprise zinc and compressed metal foam. Both the positive and negative electrodes can have alignment tabs, wherein the flat plate electrode cell can further comprise electrical terminals tanned from the aligned tabs. The rechargeable flat plate electrode cell of the present disclosure, formed from compressed metal foam, provides both low resistance and high rate performance to the electrodes and the cell. Examples of improvements over round bobbin and flat plate cells are current density, memory effect, shelf life, charge retention, and voltage level of discharge curve. In particular, the rechargeable flat plate electrode cell of the present disclosure provides longer cycle life with reduced capacity fade as compared with known round bobbin and flat plate cells. | 12-19-2013 |
20140220256 | PROCESS FOR MANUFACTURING A CONTINUOUS COATED IRON ELECTRODE - Provided is a continuous process for preparing a high quality and high performance iron electrode. The process comprises preparing a formulation comprising an iron active material and a binder and coating a continuous substrate material on a least one side with the formulation. The coated continuous substrate material is dried, compacted and blanked. A tab is then attached to the electrode. | 08-07-2014 |
20140220432 | ELECTROLYTE FOR A NICKEL-IRON BATTERY - Providing is a battery comprising an iron anode, a nickel cathode, and an electrolyte comprised of sodium hydroxide, lithium hydroxide and a soluble metal sulfide. In one embodiment the concentration of sodium hydroxide in the electrolyte ranges from 6.0 M to 7.5 M, the amount of lithium hydroxide present in the electrolyte ranges from 0.5 to 2.0 M, and the amount of metal sulfide present in the electrolyte ranges from 1-2% by weight. | 08-07-2014 |
20140220433 | LAYERED IRON ELECTRODE - The present invention provides one with a novel coated iron electrode. Provided is an iron based electrode comprising a single layer conductive substrate coated on at least one side with a multilayered coating, with each coating layer comprising an iron active material, and preferably a binder. The coating is comprised of at least two layers. Each layer has at least a different porosity or composition than an adjacent layer. The iron based electrode is useful in alkaline rechargeable batteries, particularly as a negative electrode in a Ni—Fe battery. | 08-07-2014 |
20140220434 | NICKEL IRON BATTERY EMPLOYING A COATED IRON ELECTRODE - Provided is a Ni—Fe battery comprising a high quality, high performance iron electrode. In one embodiment the iron electrode comprises a polyvinyl alcohol binder. The iron electrode of the Ni—Fe battery comprises a single conductive substrate coated on one or both sides with an iron active material. | 08-07-2014 |
20140220435 | CONTINUOUS COATED IRON ELECTRODE - Provided is a high quality and high performance iron electrode, which is prepared by a continuous process. The process comprises preparing a formulation comprising an iron active material and a binder, and coating a continuous substrate material on at least one side with the formulation. The coated continuous substrate material is dried, compacted and blanked. A tab is then attached to the electrode. In one embodiment, the iron electrode comprises a PVA binder. | 08-07-2014 |
20140220440 | COATED IRON ELECTRODE AND METHOD OF MAKING SAME - Provided is an iron based electrode comprising a single layer of a conductive substrate coated on at least one side with a coating comprising an iron active material and a binder. The iron based electrode is useful in a Ni—Fe battery as the anode. The electrode can also be prepared by continuously coating each side of the substrate with a coating mixture comprising the iron active material and binder. | 08-07-2014 |
20140220441 | IRON ELECTRODE EMPLOYING A POLYVINYL ALCOHOL BINDER - The present invention provides one with an iron electrode employing a binder comprised of polyvinyl alcohol (PVA) binder. In one embodiment, the invention comprises an iron based electrode comprising a single layer of a conductive substrate coated on at least one side with a coating comprising an iron active material and a binder, wherein the binder is PVA. This iron based electrode is useful in alkaline rechargeable batteries, particularly as a negative electrode in a Ni—Fe battery. | 08-07-2014 |
20140220460 | ELECTROLYTE FOR BATTERY CONTAINING AN IRON ELECTRODE - Provided is a battery comprising an iron electrode and an electrolyte comprised of sodium hydroxide, lithium hydroxide and a soluble metal sulfide. In one embodiment, the concentration of sodium hydroxide in the electrolyte ranges from 6.0 M to 7.5 M, the amount of lithium hydroxide present in the electrolyte ranges from 0.5 M to 2.0 M, and the amount of metal sulfide present in the electrolyte ranges from 1 to 2% by weight. | 08-07-2014 |
20150056504 | MANGANESE AND IRON ELECTRODE CELL - Provided is a Mn—Fe battery comprising an iron based anode and a manganese cathode. The manganese cathode comprises a compressed metal foam substrate with the manganese active material present throughout the substrate. The metal foam substrate containing the manganese active material is also compression sized between about 42 and 45%. | 02-26-2015 |
20150056505 | MANGANESE AND IRON ELECTRODE CELL - Provided is a Mn—Fe battery comprising an iron based electrode comprising a single layer of a conductive substrate coated on at least one side with a coating comprising an iron active material and a binder. The electrode can be prepared by continuously coating each side of the substrate with a coating mixture comprising the iron active material and binder. | 02-26-2015 |
20150059931 | PROCESS OF PREPARING A CHEMICALLY PRE-FORMED (CPF) IRON NEGATIVE ELECTRODE WITH OXIDIZING GASES - Provided is a process for preparing an electrode comprising an iron active material. The process comprises first fabricating an electrode comprising an iron active material, and then treating the electrode with a gaseous oxidant to thereby create an oxidized surface. The resulting iron electrode is preconditioned prior to any charge-discharge cycle to have the assessable surface of the iron active material in the same oxidation state as in discharged iron negative electrodes active material. | 03-05-2015 |
20150060739 | PROCESS OF PREPARING A CHEMICALLY PRE-FORMED (CPF) IRON NEGATIVE ELECTRODE WITH WATER - Provided is a process for preparing an electrode comprising an iron active material. The process comprises first fabricating an electrode comprising an iron active material, and then treating the surface of the electrode with water to thereby create an oxidized surface. The resulting iron electrode is preconditioned prior to any charge-discharge cycle to have the assessable surface of the iron active material in the same oxidation state as in discharged iron negative electrodes active material. | 03-05-2015 |
20150060740 | PROCESS OF PREPARING A CHEMICALLY PRE-FORMED (CPF) IRON NEGATIVE ELECTRODE WITH OXIDIZING COMPOUNDS - Provided is a process for preparing an electrode comprising an iron active material. The process comprises first fabricating an electrode comprising an iron active material, and then treating the surface of the electrode with an oxidant solution to thereby create an oxidized surface. The resulting iron electrode is thereby preconditioned prior to any charge-discharge cycle to have the assessable surface of the iron active material in the same oxidation state as in discharged iron negative electrodes active material. | 03-05-2015 |
20150064561 | ACCELERATED FORMATION AND INCREASED PERFORMANCE IN CHEMICALLY PRE-FORMED (CPF) IRON NEGATIVE ELECTRODES - Provided is a process for preparing an electrode comprising an iron active material. The process comprises first fabricating an electrode comprising an iron active material, and then treating the surface of the electrode with an oxidant to thereby create an oxidized surface. The resulting iron electrode is preconditioned prior to any charge-discharge cycle to have the assessable surface of the iron active material in the same oxidation state as in discharged iron negative electrodes active material. | 03-05-2015 |
20150064562 | NICKEL-IRON BATTERY WITH A CHEMICALLY PRE-FORMED (CPF) IRON NEGATIVE ELECTRODE - Provided is a Ni—Fe battery comprising an iron electrode which is preconditioned prior to any charge-discharge cycle. The preconditioned iron electrode used in the Ni—Fe battery is prepared by first fabricating an electrode comprising an iron active material, and then treating the surface of the electrode with an oxidant to thereby create an oxidized surface. | 03-05-2015 |
20150072226 | NICKEL-IRON BATTERY COMPRISING A GAS CHANNELING POLYOLEFIN SEPARATOR INLAY - Provided is a Ni-Fe battery comprising a positive electrode, a negative electrode, electrolyte, and a polyolefin separator/inlay interposed between the positive and negative electrodes, with the separator/inlay having channels that allow movement of gas. In one embodiment, the separator/inlay has channels that exist in at least two planes. | 03-12-2015 |
20150072227 | NICKEL-IRON BATTERY COMPRISING A GAS CHANNELING POLYMERIC SEPARATOR INLAY - Provided is a nickel-iron battery comprising a positive electrode, a negative electrode, electrolyte, and a polymeric separator/inlay interposed between the positive and negative electrodes, with the separator/inlay having channels that allow movement of gas. In one embodiment, the separator/inlay has channels that exist in at least two planes. In one embodiment, the separator inlay is comprised of a polyester, polyamide, polyvinyl chloride or fluorocarbon polymer. | 03-12-2015 |
20150072228 | ALKALINE BATTERY COMPRISING A GAS CHANNELING POLYMERIC SEPARATOR INLAY - Provided is an alkaline battery comprising a positive electrode, a negative electrode, electrolyte, and a polymeric separator/inlay interposed between the positive and negative electrodes, with the polymeric separator/inlay having channels that allow movement of gas. In one embodiment, the polymeric separator inlay is comprised of a polyester, polyamide, polyvinyl chloride or fluorocarbon polymer. | 03-12-2015 |
20150072229 | ALKALINE BATTERY COMPRISING A POLYOLEFIN GAS CHANNELING SEPARATOR INLAY - Provided is an alkaline battery comprising a positive electrode, a negative electrode, electrolyte, and a polyolefin separator/inlay interposed between the positive and negative electrodes, with the polyolefin separator/inlay having channels that allow for movement of gas. In one embodiment, the polyolefin separator inlay has channels that exist in two planes. | 03-12-2015 |
20150072242 | GAS CHANNELING POLYOLEFIN SEPARATOR INLAY - Provided is a polyolefin separator/inlay interposed between the positive and negative electrodes of a battery, with the separator/inlay having channels that exist in at least two planes. In one embodiment, the separator inlay is comprised of a polyolefin. | 03-12-2015 |
20150072243 | GAS CHANNELING POLYMERIC SEPARATOR INLAY - Provided is a polymeric separator/inlay interposed between the positive and negative electrodes of a battery, with the separator/inlay having channels that exist in at least two planes. In one embodiment, the separator inlay is comprised of a polyester, polyamide, polyvinyl chloride or fluorocarbon polymer. | 03-12-2015 |