Reactive electrochemical membrane for wastewater treatment

We claim: 1. A porous and water-permeable electrode for electrocatalysis comprising: a porous and water-permeable reactive electrochemical membrane (“REM”) comprising: a porous and water-permeable support membrane; wherein the support membrane is formed of a titanium metal; and an electrocatalytic coating on at least a portion of the metal support membrane, the electrocatalytic coating being a tin oxide bilayer comprising: a first layer adjacent to and directly contacting the metal support membrane; wherein the first layer comprises tin oxide doped with antimony; and a second layer adjacent to and directly contacting the first layer; wherein the second layer forms a surface of the REM such that the second layer is in direct contact with an aqueous solution when the REM is in contact with the aqueous solution; wherein the second layer comprises tin oxide doped with antimony and nickel or cerium, wherein a composition of the first layer is characterized by formula FX2: Sb x Sn 1-x O 2   (FX2); wherein x is greater than or equal to 0.1 and less than or equal to 0.5. 2. The electrode of claim 1 , wherein a composition of the first layer comprises 3 at. % to 17 at. % of antimony. 3. The electrode of claim 1 , wherein a composition of the second layer comprises 0.3 at. % to 1.7 at. % of antimony and (i) 0.3 at. % to 1.7 at. % of nickel or (ii) 0.3 at. % to 1.7 at. % of cerium. 4. The electrode of claim 1 , wherein a composition of the second layer is characterized by formula FX3 or FX4: Ni x Sb y Sn 1-x-y O 2   (FX3); or Ce x Sb y Sn 1-x-y O 2   (FX4); wherein x is greater than or equal to 0.01 and less than or equal to 0.05; and y is selected from the range of 0.05 to 0.1. 5. The electrode of claim 1 , wherein support membrane comprises a titanium foam, a titanium mesh, titanium fibers, or a combination of these. 6. The electrode of claim 1 , wherein at least 100% of a surface area of the support membrane is coated with the electrocatalytic coating. 7. The electrode of claim 1 , wherein the REM has a porosity and permeability characterized by exclusion of helminth eggs and particles having a characteristic particle diameter greater than 50 μm. 8. The electrode of claim 1 , wherein the REM comprises pores or channels having a characteristic pore diameter selected from the range of 50 μm to 100 μm. 9. The electrode of claim 1 , wherein the electrocatalytic coating is characterized by a thickness selected from the range of 1 μm to 3 μm. 10. The electrode of claim 1 , wherein the electrocatalytic coating is characterized by a charge transfer resistance of 12 Ohm or less. 11. The electrode of claim 1 , wherein a cell voltage of an electrochemical cell having said electrode remains within 20% of 7V under an anodic potential of 4.5 V RHE during 2000 hours of operation. 12. The electrode of claim 1 , wherein the electrode is capable of at least 2000 hours of operation an electrochemical cell under an anodic potential selected from the range of 2.7 to 5 V RHE . 13. The electrode of claim 1 , wherein the electrode is an anode capable of catalyzing oxidation reactions that produce hydroxyl radicals, chlorine, reactive chlorine species, reactive oxygen species, and ozone. 14. The electrode of claim 1 , wherein the REM is capable of: oxidizing perfluorinated alkyl substances, oxidizing polyfluorinated alkyl substances, inactivating E. coli ., inactivating MS2 biophage, decomposing trimethoprim, decomposing ciprofloxacin, decomposing metoprolol, decomposing propranolol, decomposing carbamazepine, removing ammonium ions, and removing chemical oxygen demand (COD). 15. The electrode of claim 1 , wherein the electrocatalyst coating is compatible with an aqueous solution having any pH selected from the range of 1 to 14. 16. The electrode of claim 1 , wherein the REM comprises an internal face and an external face such that a liquid flows into the external face or the internal face and out through the internal face or the external face, respectively. 17. The electrode of claim 1 comprising an inlet/outlet channel for fluid flow therethrough. 18. A porous and water-permeable electrode for electrocatalysis comprising: a porous and water-permeable reactive electrochemical membrane (“REM”) comprising: a porous and water-permeable support membrane; wherein the support membrane is formed of a titanium metal; and an electrocatalytic coating on at least a portion of the metal support membrane, the electrocatalytic coating being a Ir—Ru—Ti—O layer having a composition characterized by formula FX1A: Ir x Ru y Ti z O 2   (FX1A); wherein: x is selected from the range of 0 to 0.1; y is selected from the range of 0.1 to 0.5; z is selected from the range of 0.5 to 0.8. 19. An electrochemical system comprising: a cathode; an anode comprising a reactive electrochemical membrane (“REM”), wherein the REM comprises: a porous and water-permeable support membrane; wherein the support membrane is formed of a titanium metal; and an electrocatalytic coating on at least a portion of the metal support membrane, the electrocatalytic coating being a tin oxide bilayer comprising: a first layer adjacent to and directly contacting the metal support membrane; wherein the first layer comprises tin oxide doped with antimony; and a second layer adjacent to and directly contacting the first layer; wherein the second layer forms a surface of the REM such that the second layer is in direct contact with an aqueous solution when the REM is in contact with the aqueous solution; wherein the second layer comprises tin oxide doped with antimony and nickel or cerium; wherein the REM is porous and water-permeable; and the aqueous solution having at least one contaminant wherein a composition of the first layer is characterized by formula FX2: Sb x Sn 1-x O 2   (FX2); wherein x is greater than or equal to 0.1 and less than or equal to 0.5. 20. The system of claim 19 , wherein the aqueous solution is a greywater. 21. An electrochemical system comprising: a cathode; an anode comprising a reactive electrochemical membrane (“REM”), wherein the REM comprises: a porous and water-permeable support membrane; wherein the support membrane is formed of a titanium metal; and an electrocatalytic coating on at least a portion of the metal support membrane, the electrocatalytic coating being a Ir—Ru—Ti—O layer having a composition characterized by formula FX1: Ir x Ru y Ti z O 2   (FX1); wherein: x is selected from the range of 0 to 0.1; y is selected from the range of 0.1 to 0.5; z is selected from the range of 0.5 to 0.8 an aqueous solution having at least one contaminant. 22. A method of decontaminating an aqueous solution, the method comprising step of: (a) contacting an anode and a cathode with the aqueous solution having at least one contaminant; wherein the anode comprises: a porous and water-permeable reactive electrochemical membrane (“REM”) comprising: a porous and water-permeable support membrane; wherein the support membrane is formed of a titanium metal; and an electrocatalytic coating on at least a portion of the metal support membrane, the electrocatalytic coating being a tin oxide bilayer comprising: a first layer adjacent to and directly contacting the metal support membrane; wherein the first layer comprises tin oxide doped with antimony; and a second layer adjacent to and directly contacting the first layer; wherein the second layer forms a surface