Micro fuel cell
First Claim
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1. A method of forming a fuel cell, comprising the steps of:
- providing a first electrode layer having a first surface and a second opposing surface;
providing a conductive layer on at least a portion of the first surface of the first electrode layer, wherein the first electrode layer is substantially non-conductive prior to providing the conductive layer;
forming a first aperture defined by a first aperture surface through the first electrode layer;
providing a second electrode layer having a first surface and a second opposing surface, wherein at least a portion of the first surface is conductive;
forming a second aperture defined by a second aperture surface through the second electrode layer;
providing a proton exchange member having a first surface and a second opposing surface, the proton exchange member including a catalyst;
providing a conductive adhesive between the first electrode layer and the proton exchange member and between the second electrode layer and the proton exchange member;
sandwiching the proton exchange member and the adhesive between the first electrode layer and the second electrode layer with the first and second apertures substantially free of the adhesive, where the first aperture of the first electrode layer is at least partially aligned with the second aperture of the second electrode layer, thereby exposing the proton exchange member, wherein the second surface of the first electrode layer is proximate the first surface of the proton exchange member and the first surface of the second electrode layer is proximate the second surface of the proton exchange member;
providing an electrical connection between at least a portion of the first surface that is conductive of the first electrode layer and the proton exchange member; and
providing an electrical connection between at least a portion of the first surface that is conductive of the second electrode layer and the proton exchange member.
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Abstract
A fuel cell, fuel cell array and methods of forming the same are disclosed. The fuel cell can be made by forming a first aperture defined by a first aperture surface through a first electrode layer and forming a second aperture defined by a second aperture surface through a second electrode layer. A proton exchange membrane is laminated between the first electrode layer and the second electrode layer. At least a portion of the first aperture is at least partially aligned with the second aperture.
81 Citations
35 Claims
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1. A method of forming a fuel cell, comprising the steps of:
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providing a first electrode layer having a first surface and a second opposing surface; providing a conductive layer on at least a portion of the first surface of the first electrode layer, wherein the first electrode layer is substantially non-conductive prior to providing the conductive layer; forming a first aperture defined by a first aperture surface through the first electrode layer; providing a second electrode layer having a first surface and a second opposing surface, wherein at least a portion of the first surface is conductive; forming a second aperture defined by a second aperture surface through the second electrode layer; providing a proton exchange member having a first surface and a second opposing surface, the proton exchange member including a catalyst; providing a conductive adhesive between the first electrode layer and the proton exchange member and between the second electrode layer and the proton exchange member; sandwiching the proton exchange member and the adhesive between the first electrode layer and the second electrode layer with the first and second apertures substantially free of the adhesive, where the first aperture of the first electrode layer is at least partially aligned with the second aperture of the second electrode layer, thereby exposing the proton exchange member, wherein the second surface of the first electrode layer is proximate the first surface of the proton exchange member and the first surface of the second electrode layer is proximate the second surface of the proton exchange member; providing an electrical connection between at least a portion of the first surface that is conductive of the first electrode layer and the proton exchange member; and providing an electrical connection between at least a portion of the first surface that is conductive of the second electrode layer and the proton exchange member. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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16. A fuel cell comprising:
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a first electrode comprising; a non-conductive substrate, the non-conductive substrate having a first-electrode top surface, a first electrode bottom surface, and a first electrode thickness defined by a first distance between the first electrode top surface and the first electrode bottom surface, a first electrode aperture through the first electrode thickness defined by a first electrode aperture surface; a second electrode comprising; a second electrode top surface; a second electrode bottom surface; a second electrode thickness defined by a second distance between the second electrode top surface and the second electrode bottom surface; a second electrode aperture through the second electrode thickness defined by a second electrode aperture surface; a first conductive layer provided on at least a portion of the first electrode top surface, at least a portion of the first electrode bottom surface, and one or more of at least a portion of the first electrode aperture surface, wherein the first conductive layer on the one or more of the at least a portion of the first electrode aperture surface provides an electrical connection between the first conductive layer on the first electrode top surface and the first conductive layer on the first electrode bottom surface; a second conductive layer provided on at least a portion of the second electrode top surface; a proton exchange member in electrical contact with and disposed between the first conductive layer and the second conductive layer, the proton exchange member including a catalyst; wherein, the first electrode aperture is at least partially aligned with the second electrode aperture, thereby exposing the proton exchange member. - View Dependent Claims (17, 18, 19, 20, 21, 22, 23)
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24. A method of forming a plurality of fuel cells, comprising the steps of:
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providing a first length of non-conductive material having a first plurality of apertures therethrough and a first plurality of electrical contacts, wherein the first plurality of electrical contacts include one or more conductive contacts that extend through the first length of non-conductive material; providing a second length of material having a second plurality of apertures therethrough and a second plurality of electrical contacts that extend through the second length of material; providing a proton exchange member, the proton exchange member including a catalyst; providing an adhesive layer between the proton exchange member and the first length of material, between the proton exchange member and the second length of material, or between the proton exchange member and the first and second length of material; laminating the proton exchange member and any adhesive between the first length of material and the second length of material, where the first plurality of apertures are at least partially in registration with the second plurality of apertures, and wherein at least part of the proton exchange member is aligned with the plurality of first and second apertures to form a plurality of fuel cells; and providing a plurality of electrically conductive connections between the proton exchange member and each of the first and second pluralities of electrical contacts. - View Dependent Claims (25, 26, 27, 28, 29, 30)
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31. A method of forming a plurality of fuel cells, comprising the steps of
providing a first length of non-conductive material having a first plurality of apertures therethrough and a first plurality of electrical contacts therethrough; -
providing a second length of material having a second plurality of apertures therethrough and at least a second electrical contact; providing a proton exchange member, the proton exchange member including a catalyst; passing the first length of material, the proton exchange member, and the second length of material through a joining unit, wherein the proton exchange member is between the first length of material and the second length of material, the first plurality of apertures and the second plurality of apertures are at least partially aligned thereby exposing the proton exchange member therebetween, and the proton exchange member is in electrical contact with the first plurality of electrical contacts and the second electrical contact; and laminating the first length of material, the proton exchange member, and the second length of material as they pass through the joining unit. - View Dependent Claims (32, 33, 34, 35)
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Specification
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Current AssigneeHoneywell International Inc.
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Original AssigneeHoneywell International Inc.
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InventorsHigashi, Robert E., Nguyen, Khanh Q., Newstrom-Peitso, Karen M., Rezachek, Tom M., Wood, Roland A.
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Primary Examiner(s)Ruddock, Ula C.
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Assistant Examiner(s)ECHELMEYER, ALIX ELIZABETH
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Application NumberUS10/750,581Publication NumberTime in Patent Office3,025 DaysField of SearchNoneUS Class Current429/12CPC Class CodesH01M 16/006 of fuel cells with recharge...H01M 8/0297 Arrangements for joining el...H01M 8/04007 related to heat exchangeH01M 8/04156 with product water removalH01M 8/0606 with means for production o...H01M 8/2404 Processes or apparatus for ...H01M 8/241 with solid or matrix-suppor...Y02E 60/10 Energy storage using batteriesY02E 60/50 Fuel cellsY10T 29/49114 including adhesively bonding
