Electrode for nitrate reduction

What is claimed: 1 . A method comprising, heating a carbonaceous water permeable substrate having a titanium compound and a metal catalyst disposed thereon or therein to increase oxygen vacancies (OVs). 2 . The method of claim 1 , wherein the titanium compound comprises titanium dioxide. 3 . The method of claim 1 , wherein the carbonaceous water permeable substrate having a titanium compound and a metal catalyst disposed thereon or therein is heated to a temperature in the range of from about 400° C. to about 700° C. 4 . The method of claim 1 , wherein the carbonaceous water permeable substrate having a titanium compound and a metal catalyst disposed thereon or therein is heated in a reducing atmosphere that comprises H2. 5 . A method comprising: preparing a water permeable substrate that comprises electro spun nanofibers and that has a titanium compound disposed thereon or therein by electrospinning polymer fibers from a sol-gel comprising the titanium compound, a polymer precursor, and a suspending solvent to provide the water permeable substrate that comprises electro spun nanofibers and that has the titanium compound disposed thereon or therein; oxidatively stabilizing the electro spun nanofibers by heating in air at about 250° C. to provide the water permeable substrate that comprises oxidatively stabilized electro spun nanofibers and that has the titanium compound disposed thereon or therein; heating the water permeable substrate that comprises oxidatively stabilized electro spun nanofibers and that has the titanium dioxide disposed thereon or therein to a temperature in a range of about 800° C. to about 1200° C. to carbonize the oxidatively stabilized nanofibers and to provide the carbonaceous water permeable substrate having the titanium compound disposed thereon or therein; depositing a metal catalyst onto the carbonaceous water permeable substrate having the titanium compound disposed thereon to provide the carbonaceous water permeable substrate having the titanium compound and the metal catalyst disposed thereon or therein; heating the carbonaceous water permeable substrate having the titanium compound and the metal catalyst disposed thereon or therein to increase oxygen vacancies to provide the carbonaceous water permeable substrate having increased oxygen vacancies and having the titanium compound and the metal catalyst disposed thereon or therein; and incorporating the carbonaceous water permeable substrate having increased oxygen vacancies and having the titanium compound and a metal catalyst disposed thereon or therein into an electrode. 6 . The method of claim 5 , wherein the polymer precursor comprises polyacrylonitrile. 7 . A method comprising: forming a carbonaceous water permeable substrate having a titanium compound and a metal catalyst disposed thereon or therein; and introducing oxygen vacancies into the carbonaceous water permeable substrate. 8 . The method of claim 7 , comprising forming the carbonaceous water permeable substrate having the titanium compound and the metal catalyst disposed thereon or therein and heat treating the carbonaceous water permeable substrate having the titanium compound and the metal catalyst disposed thereon or therein.