Patent ID: 8192594
Filing Date: 2012-06-05
Classification: H01L,Y02E

Abstract:
1. A system for forming a precursor layer containing Group IB and Group IIIA materials on a front surface of a flexible foil as the flexible foil is advanced in a continuous manner, the system comprising: a Group IB material deposition station to electroplate a Group IB material layer of a metallic stack on surface portions of the front surface of the flexible foil as the flexible foil is advanced through the Group IB material deposition station, the Group IB material deposition station including an insulating enclosure with an anode disposed therein that allows a Group IB electroplating solution to pass therethrough and a first contact that is adapted to electrically contact a surface of the flexible foil during electroplating of the Group IB material layer; a Group IIIA material deposition station to electroplate a Group IIIA material to form a Group IIIA material layer of the metallic stack on the Group IB material layer as the flexible foil is advanced through the Group IIIA material deposition station and the Group IIIA material deposition station and while the Group IB material layer is continued to be electroplated onto the surface portions of the flexible foil in the Group IB material deposition station, the Group IIIA material deposition station including a further insulating enclosure with a further anode disposed therein thAt allows a Group IIIA electroplating solution to pass therethrough and a further first contact that is adapted to electrically contact a surface of the Group IB material layer during electroplating of the Group IIIA material layer; an alloying furnace to transform the metallic stack into an alloy layer by intermixing the layers of Group IB and Group IIIA materials; and another deposition station to electroplate at least one of a Group IB material layer and a Group IIIA material layer onto the alloy layer as the flexible foil is advanced through the Group IB material deposition station, the Group IIIA material deposition station, the alloying furnace, and the another deposition station and while the metallic stack is continued to be transformed into the alloy layer in the alloying furnace, the Group IIIA material is continued to be electroplated in the Group IIIA material deposition station on the Groups IB material layer and while the Group IB material is continued to be electroplated onto the surface portions of the flexible foil in the Group IB material deposition station, thereby obtaining the precursor layer containing Group IB and Group IIIA materials, the another material deposition station including another insulating enclosure with another anode disposed therein that allows another electroplating solution to pass therethrough and another first contact that is adapted to electrically contact a surface of the alloy layer during electroplating of the at least one of the Group IB material film and the Group IIIA material layer, wherein the first contact of the Group IB material deposition station is adapted to electrically contact a portion of the surface of the flexible foil before electroplating, and wherein the Group IB material deposition station further includes: a second contact adapted to electrically contact an already deposited portion of the Group IB material layer after electroplating the Group IB material layer on that already deposited portion of the Group IB material layer; and a near-rectangular slit opening disposed between the first contact and the second contact, the near-rectangular slit opening providing for the Group IB electroplating solution to pass therethrough and be directed toward the conductive surface of the flexible foil during electroplating, while a voltage is applied between the anode and the first and second contacts, the near rectangular slit opening that allows the Group IB electroplating solution to electroplate across a width of the flexible foil; and wherein the further first contact of the Group IIIA material deposition station is adapted to electrically contact a further portion of the surface of the flexible foil before electroplating, and wherein the Group IIIA material deposition station further includes: a further second contact adapted to electrically contact an already deposited portion of the Group IIIA material layer after electroplating the Group IIIA material layer on that already deposited portion of the Group IIIA material layer; and a further near-rectangular slit opening disposed between the further first contact and the further second contact, the further near-rectangular slit opening providing for the Group IIIA electroplating solution to pass therethrough and be directed toward the Group IB material layer of the flexible foil during electroplating, while a voltage is applied between the further anode and the further first and the further second contacts, the further near rectangular slit opening provided so that the Group IIIA electroplating solution electroplates across the width of the flexible foil; wherein the another first contact of the another material deposition station is adapted to electrically contact another portion of the surface of the flexible foil before electroplating, and wherein the another material deposition station further includes: another second contact adapted to electrically contact an already deposited portion of the at least one of the Group IB material film and the Group IIIA material film Group IB material layer after electroplating the Group IB material layer on that already deposited portion of the at least one of the Group IB material film and the Group IIIA material layer; and another near-rectangular slit opening disposed between the another first contact and the another second contact, the another near-rectangular slit opening providing for the another electroplating solution to pass therethrough and be directed toward the alloy layer of the flexible foil during electroplating, while a voltage is applied between the another anode and the another first and the another second contacts, the another near-rectangular slit opening provided so that the another electroplating solution electroplates across the width of the flexible foil.