Encapsulated electrode and the means to attach it to a soft goods assemb ly (sga)

1 . An encapsulated electrode assembly, comprising: a portion of conductive fabric, the conductive fabric comprising fibers having ends, the portion of fibrous fabric defining an edge therearound, a sealed portion of the at least one edge being sealed by a sealant infiltrated into the conductive fabric, the sealant embedding the ends of fibers located along the at least one edge; and a frame, the sealed portion of the at least one edge and the frame being superposed with and attached one another, and the sealed portion of the at least one edge and the frame optionally being sealed directly to one another. 2 . The encapsulated electrode of claim 1 , wherein the sealant and the frame comprise the same material. 3 . The encapsulated electrode of claim 1 , wherein at least one of the sealant and the frame comprises one or more of polyethylene, polypropylene, polyvinyl chloride, or any combination thereof. 4 . The encapsulated electrode of claim 1 , wherein the sealed portion and the frame are integral with one another, and the sealed portion of the at least one edge and the frame are optionally ultrasonically welded to one another. 5 . The encapsulated electrode of claim 1 , wherein the conductive fabric is woven. 6 . The encapsulated electrode of claim 1 , wherein the conductive fabric is nonwoven. 7 . The encapsulated electrode of claim 1 , wherein the sealed portion extends around essentially the entire perimeter of the portion of conductive fabric. 8 . The encapsulated electrode of claim 7 , wherein the sealed portion effects a tension across the conductive fabric. 9 . The encapsulated electrode of claim 1 , wherein the sealed portion defines a width of from about 2 mm to about 10 mm. 10 . The encapsulated electrode of claim 1 , wherein the sealant extends beyond the edge of the portion of fibrous fabric. 11 . An electrode assembly, comprising: (a) a first framed electrode, the first framed electrode comprising (1) a first portion of conductive fabric, the first portion of conductive fabric defining an edge therearound, a sealed portion of the at least one edge being sealed by a sealant infiltrated into the conductive fabric, the sealant embedding the ends of fibers located along the edge, and (2) a first frame, the sealed portion of the at least one edge being sealed to the first frame; (b) a second framed electrode, the second framed electrode comprising (1) a second portion of conductive fabric, the second portion of conductive fabric defining an edge therearound, a sealed portion of the at least one edge being sealed by a sealant infiltrated into the conductive fabric, the sealant embedding the ends of fibers located along the edge, and (2) a second frame, the sealed portion of the at least one edge being sealed to the second frame; and (c) an ion exchange membrane, the first frame and the ion exchange membrane defining a first pocket space between the first portion of conductive fabric and the ion exchange membrane, and the second frame and the ion exchange membrane defining a second pocket space between the second portion of conductive fabric and the ion exchange membrane. 12 . The electrode assembly of claim 11 , wherein at least one of the first pocket space and the second pocket space defines a depth of from about 0 mm to about 1 mm. 13 . The electrode assembly of claim 11 , wherein (a) the first frame is sealed to the ion exchange membrane using a sealant so as to form the first pocket space, (b) the second frame is sealed to the ion exchange membrane using a sealant so as to form the second pocket space, or both (a) and (b). 14 . The electrode assembly of claim 11 , wherein (a) the first frame is sealed to the ion exchange membrane by applied pressure so as to form the first pocket space, (b) the second frame is sealed to the ion exchange membrane by applied pressure so as to form the second pocket space, or both (a) and (b). 15 . The electrode assembly of claim 11 , wherein the first frame defines a thickness in the range of from about 80 micrometers to about 1000 micrometers. 16 . The electrode assembly of claim 11 , wherein the sealant extends beyond the edge of the first portion of conductive fabric. 17 . An electrochemical cell stack, comprising one or more electrodes according to claim 1 . 18 . An electrochemical cell stack, comprising one or more electrode assemblies according to claim 11 . 19 . The electrochemical cell stack of claim 17 , wherein the plurality of electrodes are maintained in position by application of a pressure exerted between end plates flanking the plurality of electrodes. 20 . The electrochemical cell stack of claim 17 , wherein the fibrous fabric of the electrodes is wetted by an active material. 21 . An electrochemical cell stack, comprising a plurality of electrode assemblies according to claim 11 . 22 . The electrochemical cell stack of claim 21 , wherein the conductive fabric of the electrodes is wetted by an active material. 23 . The electrochemical stack of claim 17 , the electrochemical stack being in electrical communication with an electrical load. 24 . A method of forming an electrode assembly, comprising: sealing an edge of a portion of conductive fabric so as to give rise to an edge-sealed conductor, the conductive fabric comprising fibers having ends, the sealing comprising effecting infiltration of a sealant into the conductive fabric so as to give rise to a sealed edge extending around the portion of conductive fabric, the sealant embedding the ends of fibers located along the at least one edge, and the sealant optionally effecting a tension across the conductive fabric. 25 . The method of claim 24 , further comprising affixing the edge-sealed conductor to a framed ion exchange membrane, the affixing defining a pocket space between the portion of conductive fabric and the ion exchange membrane. 26 . The method of claim 25 , wherein the affixing comprises ultrasonic welding. 27 . The encapsulated electrode of claim 1 , wherein the sealed portion and the frame are sealed to one another with an adhesive. 28 . The encapsulated electrode of claim 1 , wherein the sealed portion of the at least one edge and the frame are sealed directly to one another.