Porous Electrodes, Membrane-Electrode Assemblies, Electrode Assemblies, and Electrochemical Cells and Liquid Flow Batteries Therefrom

1 ) A membrane-electrode assembly for a liquid flow battery comprising: an ion exchange membrane having a first surface and an opposed second surface; and a first porous electrode, having a first major surface and a second major surface, comprising: non-electrically conductive, polymer particulate fibers in the form of a first porous substrate, wherein the first porous substrate is at least one of a woven or nonwoven paper, felt, mat and cloth; and electrically conductive carbon particulate embedded in the pores of the first porous substrate and adhered directly to the surface of the non-electrically conductive, polymer particulate fibers of the first porous substrate; and wherein the first major surface of the first porous electrode is proximate to the first surface of the ion exchange membrane. 2 ) The membrane-electrode assembly for a liquid flow battery of claim 1 , wherein the electrically conductive carbon particulate of the first porous electrode is at least one of carbon particles, carbon flakes, carbon fibers, carbon dendrites, carbon nanotubes and branched carbon nanotubes. 3 ) The membrane-electrode assembly for a liquid flow battery of claim 1 , wherein the electrically conductive carbon particulate of the first porous electrode is at least one of carbon nanotubes and branched carbon nanotubes. 4 ) (canceled) 5 ) The membrane-electrode assembly for a liquid flow battery of claim 1 , wherein the electrically conductive carbon particulate of the first porous electrode is at least one of graphite particles, graphite flakes, graphite fibers and graphite dendrites. 6 ) The membrane-electrode assembly for a liquid flow battery of claim 1 , wherein at least a portion of the non-electrically conductive polymer particulate fibers of the first porous substrate has a core-shell structure, wherein the core-shell structure includes an inner core comprising a first polymer and an outer shell comprising a second polymer. 7 ) The membrane-electrode assembly for a liquid flow battery of claim 6 , wherein the second polymer has a softening temperature that is lower than softening temperature of the first polymer. 8 ) (canceled) 9 ) The membrane-electrode assembly for a liquid flow battery of claim 1 , wherein the amount of electrically conductive carbon particulate contained in the first porous electrode is from about 40 to about 80 percent by weight. 10 ) (canceled) 11 ) (canceled) 12 ) The membrane-electrode assembly for a liquid flow battery of claim 1 , wherein the electrically conductive carbon particulate of the first porous electrode has enhanced electrochemical activity, produced by at least one of chemical treatment, thermal treatment and plasma treatment. 13 ) The membrane-electrode assembly for a liquid flow battery of claim 1 further comprising a second porous electrode, having a first major surface and a second major surface, comprising: non-electrically conductive polymer particulate fibers in the form of a second porous substrate, wherein the second porous substrate is at least one of a woven or nonwoven paper, felt, mat and cloth; and electrically conductive carbon particulate embedded in the pores of the second porous substrate and adhered directly to the surface of the non-electrically conductive, polymer particulate fibers of the second porous substrate; and wherein the first major surface of the second porous electrode is proximate to the second surface of the ion exchange membrane. 14 ) The membrane-electrode assembly for a liquid flow battery of claim 13 , wherein the electrically conductive carbon particulate of the second porous electrode is at least one of carbon particles, carbon flakes, carbon fibers, carbon dendrites, carbon nanotubes and branched carbon nanotubes. 15 ) (canceled) 16 ) (canceled) 17 ) The membrane-electrode assembly for a liquid flow battery of claim 13 , wherein the electrically conductive carbon particulate of the second porous electrode is at least one of graphite particles, graphite flakes, graphite fibers and graphite dendrites. 18 ) The membrane-electrode assembly for a liquid flow battery of claim 13 , wherein at least a portion of the non-electrically conductive polymer particulate fibers of the second porous substrate has a core-shell structure, wherein the core-shell structure includes an inner core comprising a third polymer and an outer shell comprising a fourth polymer. 19 ) The membrane-electrode assembly for a liquid flow battery of claim 18 , wherein the fourth polymer has a softening temperature that is lower than softening temperature of the third polymer. 20 ) The membrane-electrode assembly for a liquid flow battery of claim 13 , wherein the amount of electrically conductive carbon particulate contained in the second porous electrode is from about 5 to about 99 percent by weight. 21 ) The membrane-electrode assembly for a liquid flow battery of claim 13 , wherein the amount of electrically conductive carbon particulate contained in the second porous electrode is from about 40 to about 80 percent by weight. 22 ) The membrane-electrode assembly for a liquid flow battery of claim 13 , wherein the second porous electrode has a thickness from about 10 microns to about 1000 microns. 23 ) The membrane-electrode assembly for a liquid flow battery of claim 13 , wherein the second porous electrode has an electrical resistivity of less than about 100000 μOhm·m. 24 ) (canceled) 25 ) The membrane-electrode assembly for a liquid flow battery of claim 1 further comprising a first microporous protection layer disposed between the ion exchange membrane and the first porous electrode, wherein the first microporous protection layer comprises a polymer resin and an electrically conductive carbon. 26 ) (canceled) 27 ) (canceled) 28 ) An electrode assembly for a liquid flow battery comprising: a first porous electrode, having a first major surface and a second major surface, comprising: non-electrically conductive polymer particulate fibers in the form of a first porous substrate, wherein the first porous substrate is at least one of a woven or nonwoven paper, felt, mat and cloth; and electrically conductive carbon particulate embedded in the pores of the first porous substrate and adhered directly to the surface of the non-electrically conductive, polymer particulate fibers of the first porous substrate; and a first microporous protection layer having a first surface and an opposed second surface; and wherein the first major surface of the first porous electrode is proximate the first major surface of the first microporous protection layer, and wherein the first microporous protection layer comprises a polymer resin and an electrically conductive carbon particulate. 29 ) (canceled) 30 ) (canceled) 31 ) (canceled) 32 ) (canceled) 33 ) The electrode assembly for a liquid flow battery of claim 28 , wherein the polymer resin of the first microporous protection is an ionic resin. 34 ) The electrode assembly for a liquid flow battery of claim 28 , wherein at least a portion of the non-electrically conductive polymer particulate fibers of the first porous substrate has a core-shell structure, wherein the core-shell structure includes an inner core comprisin