US2018175234A1PendingUtilityA1

Array Of Monolithically Integrated Thin Film Photovoltaic Cells And Associated Methods

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Assignee: ASCENT SOLAR TECH INCPriority: Jun 20, 2007Filed: Feb 15, 2018Published: Jun 21, 2018
Est. expiryJun 20, 2027(~0.9 yrs left)· nominal 20-yr term from priority
H01L 31/05H01L 31/1876Y02E10/50H01L 31/0465H10F 19/90H10F 19/35H10F 71/137
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Claims

Abstract

A process of forming an array of monolithically integrated thin film photovoltaic cells from a stack of thin film layers formed on an insulating substrate includes forming at least one cell isolation scribe in the stack of thin film layers. A second electrical contact layer isolation scribe is formed for each cell isolation scribe adjacent to a respective cell isolation scribe. A via scribe is formed in the stack of thin film layers between each cell isolation scribe and its respective second electrical contact layer isolation scribe. Insulating ink is disposed in each cell isolation scribe, and conductive ink is disposed in each via scribe to form a via. Conductive ink is also disposed along the top surface of the stack of thin film layers to form at least one conductive grid.

Claims

exact text as granted — not AI-modified
What is claimed is: 
     
         1 . A process of forming an array of monolithically integrated thin film photovoltaic cells from a stack of thin film layers formed on an insulating substrate, the stack of thin film layers including a first electrical contact layer formed on the substrate, a photovoltaic stack formed on the first electrical contact layer, and a second electrical contact layer formed on the photovoltaic stack, the process comprising:
 forming at least one second electrical contact layer isolation scribe in the stack of thin film layers, each instance of the at least one second electrical contact layer isolation scribe extending at least through the second electrical contact layer of the stack of thin film layers;   extending a first portion of the at least one second electrical contact layer isolation scribe to the substrate to form a cell isolation scribe for each instance of the at least one second electrical contact layer isolation scribe;   disposing insulating ink in each cell isolation scribe and in each instance of the at least one second electrical contact layer isolation scribe;   after disposing the insulating ink, extending a via scribe from a second portion of each second electrical contact layer isolation scribe, each via scribe extending at least through the insulating ink of a second portion of a respective second electrical contact layer isolation scribe to the first electrical contact layer, the first portion being in a different region of the second electrical contact layer isolation scribe than the second portion;   disposing conductive ink in each via scribe to form a via; and   disposing conductive ink along the top surface of the stack of thin film layers to form at least one conductive grid, each instance of the at least one conductive grid connecting a respective via to the second electrical contact layer of a photovoltaic cell adjacent thereto.   
     
     
         2 . The process of  claim 1 , the photovoltaic stack forming at least one photovoltaic junction for converting electromagnetic energy into electric power. 
     
     
         3 . The process of  claim 2 , the photovoltaic stack including a solar absorber layer and a window layer. 
     
     
         4 . The process of  claim 1 , the step of disposing insulating ink being executed using an ink jet printing process. 
     
     
         5 . The process of  claim 1 , the steps of disposing conductive ink being executed using an ink jet printing process. 
     
     
         6 . The process of  claim 1 , at least one of the step of forming and the steps of extending being executed using a laser scribing process. 
     
     
         7 . The process of  claim 6 , the laser scribing process including moving the stack of thin film layers formed on the insulating substrate on a production apparatus. 
     
     
         8 . The process of  claim 6 , the laser scribing process including moving a laser beam on a production apparatus. 
     
     
         9 . The process of  claim 1 , the insulating substrate selected from the group consisting of an insulated metal substrate, a glass substrate, and a polymeric material substrate. 
     
     
         10 . The process of  claim 1 , each of the steps being executed with a single registration of the stack of thin film layers formed on the insulating substrate to a production apparatus. 
     
     
         11 . The process of  claim 1 , each of the steps being executed by a single production apparatus. 
     
     
         12 . The process of  claim 1 , each instance of the at least one second electrical contact layer isolation scribe having a first width, each cell isolation scribe having a second width, the first width being greater than the second width.

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