Electrode and electrical storage device for lead-acid system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01M-004/14
H01M-004/36
H01M-004/62
H01M-004/16
H01M-004/583
출원번호
US-0996934
(2011-12-21)
등록번호
US-9812703
(2017-11-07)
우선권정보
JP-2010-284040 (2010-12-21)
국제출원번호
PCT/AU2011/001647
(2011-12-21)
§371/§102 date
20131025
(20131025)
국제공개번호
WO2012/083358
(2012-06-28)
발명자
/ 주소
Furukawa, Jun
Monma, Daisuke
Lam, Lan Trieu
Louey, Rosalie
Haigh, Nigel Peter
출원인 / 주소
COMMONWEALTH SCIENTIFIC AND INDUSTRIAL RESEARCH ORGANISATION
대리인 / 주소
Nixon & Vanderhye P.C.
인용정보
피인용 횟수 :
0인용 특허 :
103
초록▼
The present invention generally relates to electrodes for use in lead-acid battery systems, batteries and electrical storage devices thereof, and methods for producing the electrodes, batteries and electrical storage devices. In particular, the electrodes comprise active battery material for a lead-
The present invention generally relates to electrodes for use in lead-acid battery systems, batteries and electrical storage devices thereof, and methods for producing the electrodes, batteries and electrical storage devices. In particular, the electrodes comprise active battery material for a lead-acid storage battery, wherein the surface of the electrode is provided with a coating layer comprising a carbon mixture containing composite carbon particles, wherein each of the composite carbon particles comprises a particle of a first capacitor carbon material combined with particles of a second electrically conductive carbon material. The electrical storage devices and batteries comprising the electrodes are, for example, particularly suitable for use in hybrid electric vehicles requiring a repeated rapid charge/discharge operation in the PSOC, idling-stop system vehicles, and in industrial applications such as wind power generation, and photovoltaic power generation.
대표청구항▼
1. An electrode comprising active battery material for a lead-acid storage battery, wherein a surface of the electrode is provided with a coating layer comprising a carbon mixture containing composite carbon particles, wherein each of the composite carbon particles comprises a particle of a first ca
1. An electrode comprising active battery material for a lead-acid storage battery, wherein a surface of the electrode is provided with a coating layer comprising a carbon mixture containing composite carbon particles, wherein each of the composite carbon particles comprises a particle of a first capacitor carbon material with particles of a second electrically conductive carbon material adhered to a surface of the first capacitor carbon material, and wherein a surface coverage on the particles of the first capacitor carbon material by the second electrically conductive carbon material is at least 20%. 2. The electrode according to claim 1, wherein the surface coverage on the particles of the first capacitor carbon material by the second electrically conductive carbon material is at least 50%. 3. The electrode according to claim 1, wherein a particle size of the second electrically conductive carbon material is one-fifth or less of that of the first capacitor carbon material. 4. The electrode according to claim 1, wherein the ratio by weight % of the first capacitor carbon material to the second electrically conductive carbon material is between 15:1 to 10:8. 5. The electrode according to claim 1, wherein the first capacitor carbon material is a high specific surface area carbonaceous material that has a specific surface area of at least 500 m2/g measured by adsorption using BET isotherm. 6. The electrode according to claim 1, wherein the first capacitor carbon material is activated carbon. 7. The electrode according to claim 1, wherein the second electrically conductive carbon material is selected from at least one of carbon black, graphite, glassy carbon, and a nanocarbon fiber. 8. The electrode according to claim 1, wherein the coating layer of the carbon mixture comprises 4 to 100 parts by weight of the second electrically conductive carbon material relative to 100 parts by weight of the first capacitor carbon material. 9. The electrode according to claim 1, wherein an amount of the carbon mixture for the coating layer of the electrode is 1 to 15% by weight relative to a weight of the active battery material on the electrode. 10. The electrode according to claim 1, wherein the electrode is a negative electrode comprising negative active battery material for a lead-acid storage battery. 11. The electrode according to claim 1, wherein the composite carbon particles are produced by at least one of grinding, granulating and unifying, the particles of the first capacitor carbon material with the particles of the second electrically conductive carbon material. 12. The electrode according to claim 1, wherein the composite carbon particles are produced by bead or ball milling. 13. An electrical storage device for a lead acid based system comprising the electrode according to claim 1. 14. The electrical storage device of claim 13, wherein the device is a lead-acid storage battery. 15. An electrical storage device comprising at least one lead dioxide based positive electrode and at least one sponge lead based negative electrode in a sulphuric acid electrolyte solution, wherein the negative electrode comprises: a current collector;a first layer deposited on the current collector, the first layer comprising active battery material of sponge lead;a second layer in contact with at least a portion of the first layer, the second layer comprising composite carbon particles, wherein each of the composite carbon particles comprises a particle of a first capacitor carbon material with particles of a second electrically conductive carbon material adhered to a surface of the first capacitor carbon material, and wherein a surface coverage on the particles of the first capacitor carbon material by the second electrically conductive carbon material is at least 20%. 16. A method for preparing an electrode comprising active battery material for a lead-acid storage battery, wherein the method comprises: preparing composite carbon particles by at least one of grinding, granulating and unifying, particles of a first capacitor carbon material with particles of a second electrically conductive carbon material having a particle size less than that of the first capacitor carbon material, whereby each composite carbon particle comprises a particle of the first capacitor carbon material with particles of the second electrically conductive carbon material adhered to a surface of the first capacitor carbon material such that a surface coverage on the particles of the first capacitor carbon material by the second electrically conductive carbon materials is at least 20%;preparing a carbon mixture comprising the composite carbon particles; andproviding the carbon mixture as a coating on at least a portion of the surface of an electrode comprising active battery material for a lead-acid storage battery. 17. An electrode comprising active battery material for a lead-acid storage battery, wherein the surface of the electrode is provided with a coating layer comprising a carbon mixture containing composite carbon particles, wherein each of the composite carbon particles comprises a particle of a first capacitor carbon material with particles of a second electrically conductive carbon material adhered to a surface of the first capacitor carbon material, wherein a surface coverage on the particles of the first capacitor carbon material by the second electrically conductive carbon material is at least 20%, and wherein the carbon mixture further comprises a third electrically conductive carbon material. 18. The electrode according to claim 17, wherein the third electrically conductive carbon material is selected from at least one of carbon black, graphite, glassy carbon, and a nanocarbon fiber. 19. The electrode according to claim 17, wherein the surface coverage on the particles of the first capacitor carbon material by the second electrically conductive carbon material is at least 50%. 20. The electrode according to claim 17, wherein a particle size of the second electrically conductive carbon material is one-fifth or less of that of the first capacitor carbon material. 21. The electrode according to claim 17, wherein the ratio by weight % of the first capacitor carbon material to the second electrically conductive carbon material is between 15:1 to 10:8. 22. The electrode according to claim 17, wherein the first capacitor carbon material is a high specific surface area carbonaceous material that has a specific surface area of at least 500 m2/g measured by adsorption using BET isotherm. 23. The electrode according to claim 17, wherein the first capacitor carbon material is activated carbon. 24. The electrode according to claim 17, wherein the second electrically conductive carbon material is selected from at least one of carbon black, graphite, glassy carbon, and a nanocarbon fiber. 25. The electrode according to claim 17, wherein the coating layer of the carbon mixture comprises 4 to 100 parts by weight of the second electrically conductive carbon material relative to 100 parts by weight of the first capacitor carbon material. 26. The electrode according to claim 25, wherein the coating layer of the carbon mixture further comprises 50 parts by weight or less of the third electrically conductive carbon material relative to 100 parts by weight of the first capacitor carbon material. 27. The electrode according to claim 17, wherein the coating layer of the carbon mixture comprises 4 to 100 parts by weight of the second electrically conductive carbon material relative to 100 parts by weight of the first capacitor carbon material, 50 parts by weight or less of the third electrically conductive carbon material, 2 to 30 parts by weight of a binder, 20 parts by weight or less of a thickener, and 20 parts by weight or less of a short fiber relative to 100 parts by weight of the first capacitor carbon material. 28. The electrode according to claim 17, wherein an amount of the carbon mixture for the coating layer of the electrode is 1 to 15% by weight relative to a weight of the active battery material on the electrode. 29. The electrode according to claim 17, wherein the electrode is a negative electrode comprising negative active battery material for a lead-acid storage battery. 30. The electrode according to claim 17, wherein the composite carbon particles are produced by at least one of grinding, granulating and unifying the particles of the first capacitor carbon material with the particles of the second electrically conductive carbon material. 31. The electrode according to claim 17, wherein the composite carbon particles are produced by bead or ball milling. 32. An electrical storage device for a lead acid based system comprising the electrode according to claim 17. 33. The electrical storage device of claim 32, wherein the device is a lead acid storage battery. 34. An electrical storage device comprising at least one lead dioxide based positive electrode and at least one sponge lead based negative electrode in a sulphuric acid electrolyte solution, wherein the negative electrode comprises: a current collector;a first layer deposited on the current collector, the first layer comprising active battery material of sponge lead;a second layer in contact with at least a portion of the first layer, the second layer comprising composite carbon particles, wherein each of the composite carbon particles comprises a particle of a first capacitor carbon material with particles of a second electrically conductive carbon material adhered to a surface of the first capacitor carbon material, and wherein a surface coverage on the particles of the first capacitor carbon material by the second electrically conductive carbon material is at least 20%, and the second layer further comprising a third electrically conductive material. 35. A method for preparing an electrode comprising active battery material for a lead-acid storage battery, wherein the method comprises: preparing composite carbon particles by at least one of grinding, granulating and unifying, particles of a first capacitor carbon material with particles of a second electrically conductive carbon material having a particle size less than that of the first capacitor carbon material, whereby each composite carbon particle comprises a particle of the first capacitor carbon material with particles of the second electrically conductive carbon material adhered to a surface of the first capacitor carbon material such that a surface coverage on the particles of the first capacitor carbon material by the second electrically conductive carbon material is at least 20%;preparing a carbon mixture comprising the composite carbon particles and a third electrically conductive carbon material; andproviding the carbon mixture as a coating on at least a portion of the surface of an electrode comprising active battery material for a lead-acid storage battery.
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