Composite separators and redox flow batteries based on porous separators

We claim: 1. An all vanadium redox flow battery (RFB) having a composite separator between positive and negative electrolytes each comprising a vanadium redox couple, the RFB characterized by: the composite separator having a porous structure consisting essentially of pores having a median diameter between 5 nm and 250 nm; the composite separator comprising aggregated inorganic particles enmeshed in a matrix, the aggregated inorganic particles comprising an acid-stable, hydrophilic, inorganic material and the matrix comprising a substantially fully fluorinated polyolefin, wherein the substantially fully fluorinated polyolefin is from 30% to 95% of the polyolefin and inorganic material combined weight; and a pressure controller configured to regulate pressures applied to the positive and negative electrolytes on respective sides of the composite separator during battery operation, thereby adjusting the volume of the positive and negative electrolyte by flowing positive or negative electrolyte across the composite separator. 2. An all vanadium redox flow battery (RFB) having a composite separator between positive and negative electrolytes each comprising a vanadium redox couple, the RFB characterized in that the separator has a porous structure consisting essentially of pores having a median diameter less than or equal to 250 nm and the separator comprises aggregated inorganic particles enmeshed in a matrix, the aggregated inorganic particles comprising an acid-stable, hydrophilic, inorganic material and the matrix comprising a substantially fully fluorinated polyolefin, wherein the substantially fully fluorinated polyolefin is greater than 25% of the polyolefin and inorganic material combined weight. 3. The RFB of claim 2 , wherein the substantially fully fluorinated polyolefin is from 30% to 95% of the polyolefin and inorganic material combined weight. 4. The RFB of claim 2 , wherein the substantially fully fluorinated polyolefin is from 50% to 90% of the polyolefin and inorganic material combined weight. 5. The RFB of claim 2 , wherein the substantially fully fluorinated polyolefin comprises a material selected from the group consisting of polytetrafluoroethylene (PTFE), hexafluoropropylene (HFP), fluorinated ethylene propylene (FEP), and combinations thereof. 6. The RFB of claim 2 , wherein the acid-stable, hydrophilic, inorganic material comprises silicon oxide. 7. The RFB of claim 2 , wherein the acid-stable, hydrophilic, inorganic material comprises a material selected from the group consisting of silicon, zirconium, niobium, titanium, boron, oxides thereof, nitrides thereof, and combinations thereof. 8. The RFB of claim 2 , wherein the agglomerated inorganic particles have a median diameter less than or equal to 500 nm. 9. The RFB of claim 2 , wherein the agglomerated inorganic particles comprise primary particles having an average diameter less than or equal to 100 nm. 10. The RFB of claim 2 , wherein the porous structure comprises pores having a median diameter of at least 5 nm. 11. The RFB of claim 2 , further comprising a pressure controller configured to regulate pressures applied to the positive and negative electrolytes on respective sides of the composite separator during battery operation, thereby adjusting the volume of the positive and negative electrolyte by flowing positive or negative electrolyte across the composite separator.