Graphene oxide-bonded metal foil thin film current collector and battery and supercapacitor containing same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01M-004/66
H01M-010/0525
H01G-011/36
H01G-011/68
H01G-011/70
출원번호
US-0231498
(2016-08-08)
등록번호
US-10158122
(2018-12-18)
발명자
/ 주소
Zhamu, Aruna
Lin, Yi-Jun
Jang, Bor Z.
출원인 / 주소
Nanotek Instruments, Inc.
인용정보
피인용 횟수 :
0인용 특허 :
1
초록▼
A graphene oxide-bonded metal foil current collector in a battery or supercapacitor, comprising: (a) a free-standing, non-supported thin metal foil having a thickness from 1 μm to 30 μm and two primary surfaces; and (b) a thin film of graphene oxide chemically bonded to at least one of the two prima
A graphene oxide-bonded metal foil current collector in a battery or supercapacitor, comprising: (a) a free-standing, non-supported thin metal foil having a thickness from 1 μm to 30 μm and two primary surfaces; and (b) a thin film of graphene oxide chemically bonded to at least one of the two primary surfaces without using a binder or adhesive wherein the primary surface does not contain a metal oxide layer and the thin film of graphene oxide has a thickness from 10 nm to 10 μm, an oxygen content from 0.1% to 10% by weight, an inter-graphene plane spacing of 0.335 to 0.50 nm, a physical density from 1.3 to 2.2 g/cm3, all graphene oxide sheets being oriented substantially parallel to each other and parallel to the primary surfaces, exhibiting a thermal conductivity greater than 500 W/mK, and/or electrical conductivity greater than 1,500 S/cm when measured alone without the thin metal foil.
대표청구항▼
1. A graphene oxide-bonded metal foil current collector in a battery or supercapacitor, said current collector comprising: (a) a free-standing, non-supported thin metal foil having a thickness from 1 μm to 30 μm and two opposed but parallel primary surfaces wherein said metal foil is selected from C
1. A graphene oxide-bonded metal foil current collector in a battery or supercapacitor, said current collector comprising: (a) a free-standing, non-supported thin metal foil having a thickness from 1 μm to 30 μm and two opposed but parallel primary surfaces wherein said metal foil is selected from Cu, Ti, Ni, stainless steel, or Al foil; and(b) a thin film of graphene oxide sheets chemically bonded to at least one of said two opposed primary surfaces of said metal foil without using a binder or adhesive wherein said at least one primary surface does not contain a layer of passivating metal oxide and wherein said thin film of graphene oxide has a thickness from 10 nm to 10 μm, an oxygen content from 0.1% to 10% by weight, an inter-graphene plane spacing of 0.335 to 0.50 nm, a physical density from 1.3 to 2.2 g/cm3, all graphene oxide sheets being oriented substantially parallel to each other and parallel to said primary surfaces, exhibiting a thermal conductivity greater than 500 W/mK, and/or electrical conductivity greater than 1,500 S/cm when measured alone without said thin metal foil, wherein said graphene oxide sheets are chemically bonded in an edge to edge manner and wherein said graphene oxide sheets are in direct contact with and bonded to at least one of said two opposed primary surfaces of said metal foil. 2. The current collector of claim 1, wherein each of said two opposed primary surfaces is chemically bonded with a thin film of graphene oxide sheets without using a binder or adhesive; wherein said thin film of graphene oxide has a thickness from 10 nm to 10 μm, an oxygen content from 0.1% to 10% by weight, an inter-graphene plane spacing of 0.335 to 0.50 nm, a physical density from 1.3 to 2.2 g/cm3, all graphene oxide sheets are oriented substantially parallel to each other and parallel to said primary surfaces, exhibiting a thermal conductivity greater than 500 W/mK and electrical conductivity greater than 1,500 S/cm when measured alone without said thin metal foil. 3. The current collector of claim 1, wherein said thin metal foil has a thickness from 4 to 10 μm. 4. The current collector of claim 1, wherein said thin film of graphene oxide sheets has a thickness from 20 nm to 2 μm. 5. The current collector of claim 1, wherein a surface of said Al foil has no passivating Al2O3 formed thereon prior to being bonded to said graphene oxide sheets. 6. The current collector of claim 1, wherein the thin film of graphene oxide sheets has an oxygen content from 1% to 5% by weight. 7. The current collector of claim 1, wherein said thin film of graphene oxide has an oxygen content less than 1%, an inter-graphene spacing less than 0.345 nm, and an electrical conductivity no less than 3,000 S/cm. 8. The current collector of claim 1, wherein said thin film of graphene oxide has an oxygen content less than 0.1%, an inter-graphene spacing less than 0.337 nm, and an electrical conductivity no less than 5,000 S/cm. 9. The current collector of claim 1, wherein said thin film of graphene oxide has an oxygen content no greater than 0.05%, an inter-graphene spacing less than 0.336 nm, a mosaic spread value no greater than 0.7, and an electrical conductivity no less than 8,000 S/cm. 10. The current collector of claim 1, wherein said thin film of graphene oxide has an inter-graphene spacing less than 0.336 nm, a mosaic spread value no greater than 0.4, and an electrical conductivity greater than 10,000 S/cm. 11. The current collector of claim 1, wherein said thin film of graphene oxide exhibits an inter-graphene spacing less than 0.337 nm and a mosaic spread value less than 1.0. 12. The current collector of claim 1, wherein said thin film of graphene oxide exhibits a degree of graphitization no less than 80% and/or a mosaic spread value no greater than 0.4. 13. The current collector of claim 1, wherein the thin film of graphene oxide sheets is obtained by depositing a graphene oxide gel onto said at least primary surface under the influence of an orientation-controlling stress and then heat-treating said graphene oxide gel at a heat treatment temperature from 80° C. to 1,500° C. 14. The current collector of claim 13, wherein said heat treatment temperature is from 80° C. to 500° C. 15. The current collector of claim 13, wherein said heat treatment temperature is from 80° C. to 200° C. 16. The current collector of claim 1, wherein said thin film of graphene oxide contains chemically bonded graphene molecules or chemically merged graphene planes that are parallel to one another. 17. The current collector of claim 13, wherein said graphene oxide gel is obtained from a graphitic material having a maximum original graphite grain size and said thin film of graphene oxide has a grain size larger than said maximum original grain size. 18. The current collector of claim 13, wherein said graphene oxide gel is produced from particles of a natural graphite or artificial graphite composed of graphite crystallites having an initial length La in the crystallographic a-axis direction, an initial width Lb in the b-axis direction, and a thickness Lc in the c-axis direction, and the thin film of graphene oxide has a graphene domain or crystal length or width greater than the initial La and Lb of the graphite crystallites. 19. The current collector of claim 1, wherein said thin film of graphene oxide contains graphene planes having a combination of sp2 and sp3 electronic configurations. 20. The current collector of claim 1, wherein said thin film of graphene oxide is a continuous length film having a length no less than 5 cm and a width no less than 1 cm. 21. The current collector of claim 1, wherein said thin film of graphene oxide, when measured alone, has a physical density greater than 1.8 g/cm3, and/or a tensile strength greater than 40 MPa. 22. The current collector of claim 1, wherein said thin film of graphene oxide, when measured alone, has a physical density greater than 1.9 g/cm3, and/or a tensile strength greater than 60 MPa. 23. The current collector of claim 1, wherein said thin film of graphene oxide, when measured alone, has a physical density greater than 2.0 g/cm3, and/or a tensile strength greater than 80 MPa. 24. A rechargeable lithium battery or lithium-ion battery containing the current collector of claim 1 as an anode current collector and/or a cathode current collector. 25. A rechargeable lithium battery containing the current collector of claim 1 as an anode current collector or a cathode current collector, which lithium battery is a lithium-sulfur cell, a lithium-selenium cell, a lithium sulfur/selenium cell, a lithium-air cell, a lithium-graphene cell, or a lithium-carbon cell. 26. A capacitor containing the current collector of claim 1 as an anode current collector or a cathode current collector, which capacitor is a symmetric ultracapacitor, an asymmetric ultracapacitor cell, a hybrid supercapacitor-battery cell, or a lithium-ion capacitor cell.
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