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다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
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Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | UP-0487914 (2006-07-17) |
등록번호 | US-7722686 (2010-06-14) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 3 인용 특허 : 335 |
Composite electrodes are constructed with pressure-bonding techniques instead of an adhesive. A current collector is made from aluminum foil roughed on both surfaces. The surfaces of the collector can be treated to enhance adhesion to the surfaces. Layers of film that includes active electrode mater
Composite electrodes are constructed with pressure-bonding techniques instead of an adhesive. A current collector is made from aluminum foil roughed on both surfaces. The surfaces of the collector can be treated to enhance adhesion to the surfaces. Layers of film that includes active electrode material, such as activated carbon, are fabricated and pressure-bonded to the current collector using a calender with heated rollers. The resulting composite sheet is then processed to shape electrodes, which can be used in electrical energy storage devices, including double layer capacitors.
We claim: 1. An energy storage device comprising: a current collector comprising a first surface and a second surface, the first surface of the current collector being uneven; and a first film of active electrode material, the first film comprising dry carbon and binder particles, the first film co
We claim: 1. An energy storage device comprising: a current collector comprising a first surface and a second surface, the first surface of the current collector being uneven; and a first film of active electrode material, the first film comprising dry carbon and binder particles, the first film comprising a third surface adjacent to the first surface of the current collector, the third surface of the first film being attached directly to the first surface of the current collector; wherein the first and third surfaces are bonded directly to each other causing the first surface to adhere to the third surface. 2. The device in accordance with claim 1, wherein the first film of active electrode material comprises dry fibrillized carbon and binder particles. 3. The device in accordance with claim 2, wherein the current collector and the first film of active electrode material are configured to comprise a double-layer capacitor electrode. 4. The device in accordance with claim 2, wherein the first film of active electrode material is attached to the current collector as a self-supporting film. 5. The device in accordance with claim 1, wherein the electrode comprises a double-layer capacitor electrode. 6. The device in accordance with claim 1, further comprising a second film of active electrode material, the second film comprising a fourth surface adjacent to the second surface of the current collector, the fourth surface of the second film being attached directly to the second surface of the current collector; wherein the fourth surface and the second surface are bonded directly to each other causing the fourth surface to adhere to the second surface. 7. The device in accordance with claim 6, wherein the first film and second film of active electrode material comprises dry fibrillized carbon and binder particles, and wherein the device comprises an energy storage device. 8. A method of manufacturing an electrode, comprising: providing a current collector comprising a first surface and a second surface; roughing the first and second surfaces of the current collector; providing a first film of active electrode material comprising a third surface; providing a second film of active electrode material comprising a fourth surface; bringing the first surface in direct contact with the third surface; bringing the second surface in direct contact with the fourth surface; pressing the first film, the current collector, and the second film together to cause the first surface to adhere to the third surface, and the second surface to adhere to the fourth surface; and wherein the film comprises a dry fibrillized blend of carbon and binder particles. 9. The method of manufacturing an electrode in accordance with claim 8, wherein said step of pressing comprises a step of processing the first film, the current collector, and the second film in a calender to cause the first surface of the current collector to adhere to the third surface of the first film, and to cause the second surface of the current collector to adhere to the fourth surface of the second film. 10. The method of manufacturing an electrode in accordance with claim 9, wherein the calender applies a pressure of about 250 or more pounds per linear inch on the first film, the current collector, and the second film. 11. The method of manufacturing an electrode in accordance with claim 9, wherein the step of pressing comprises a step of processing the first film, the current collector, and the second film between a first roller and a second roller of a calender, further comprising a step of heating at least one of the first and second rollers to a temperature of between about 100 degrees Celsius and about 300 degree Celsius. 12. A method of manufacturing an electrode, comprising: providing a current collector comprising a first surface and a second surface; roughing the first and second surfaces of the current collector; providing a first film of active electrode material comprising a third surface; providing a second film of active electrode material comprising a fourth surface; bringing the first surface in direct contact with the third surface; bringing the second surface in direct contact with the fourth surface; pressing the first film, the current collector, and the second film together to cause the first surface to adhere to the third surface, and the second surface to adhere to the fourth surface; and wherein said step of pressing comprises a step of processing the first film, the current collector, and the second film in a calender to cause the first surface of the current collector to adhere to the third surface of the first film, and to cause the second surface of the current collector to adhere to the fourth surface of the second film; and wherein the film comprises a dry fibrillized blend of carbon and binder particles.
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