METHOD FOR MANUFACTURE AND STRUCTURE OF MULTIPLE ELECTROCHEMISTRIES AND ENERGY GATHERING COMPONENTS WITHIN A UNIFIED STRUCTURE
First Claim
1. A method for using an integrated battery and device structure, the method comprising:
- using two or more stacked electrochemical cells integrated with each other formed overlying a surface of a substrate, the two or more stacked electrochemical cells comprising related two or more different electrochemistries with one or more devices formed using one or more sequential deposition processes, the one or more devices being integrated with the two or more stacked electrochemical cells to form the integrated battery and device structure as a unified structure overlying the surface of the substrate,whereupon the one or more stacked electrochemical cells and the one or more devices are integrated as the unified structure using the one or more sequential deposition processes, andwherein the integrated battery and device structure is configured such that the two or more stacked electrochemical cells and one or more devices are in electrical, chemical, and thermal conduction with each other.
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Abstract
A method for using an integrated battery and device structure includes using two or more stacked electrochemical cells integrated with each other formed overlying a surface of a substrate. The two or more stacked electrochemical cells include related two or more different electrochemistries with one or more devices formed using one or more sequential deposition processes. The one or more devices are integrated with the two or more stacked electrochemical cells to form the integrated battery and device structure as a unified structure overlying the surface of the substrate. The one or more stacked electrochemical cells and the one or more devices are integrated as the unified structure using the one or more sequential deposition processes. The integrated battery and device structure is configured such that the two or more stacked electrochemical cells and one or more devices are in electrical, chemical, and thermal conduction with each other.
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Citations
16 Claims
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1. A method for using an integrated battery and device structure, the method comprising:
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using two or more stacked electrochemical cells integrated with each other formed overlying a surface of a substrate, the two or more stacked electrochemical cells comprising related two or more different electrochemistries with one or more devices formed using one or more sequential deposition processes, the one or more devices being integrated with the two or more stacked electrochemical cells to form the integrated battery and device structure as a unified structure overlying the surface of the substrate, whereupon the one or more stacked electrochemical cells and the one or more devices are integrated as the unified structure using the one or more sequential deposition processes, and wherein the integrated battery and device structure is configured such that the two or more stacked electrochemical cells and one or more devices are in electrical, chemical, and thermal conduction with each other. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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16. An integrated battery and device structure comprising:
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two or more stacked electrochemical cells integrated with each other formed overlying a surface of a substrate, the two or more stacked electrochemical cells comprising related two or more different electrochemistries; and one or more devices formed using one or more sequential deposition processes, the one or more devices being integrated with the two or more stacked electrochemical cells to form the integrated battery and device structure as a unified structure overlying the surface of the substrate, whereupon the one or more stacked electrochemical cells and the one or more devices are integrated as the unified structure using the one or more sequential deposition processes, and wherein the integrated battery and device structure is configured such that the two or more stacked electrochemical cells and one or more devices are in electrical, chemical, and thermal conduction with each other.
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Specification