Electrochemical devices or systems comprising redox-functionalized electrodes and uses thereof

What is claimed is: 1. An asymmetric electrochemical system comprising: a. a first electrode comprising a first conductive solid substrate and a first redox species immobilized to the first conductive solid substrate, wherein the first redox species in an oxidized state selectively binds to a target functional group of a target molecule such that the first redox species is configured to at least partially separate the target molecule from other competing organic anions and/or inorganic anions; and b. a second electrode comprising a second conductive solid substrate and a second redox species immobilized to the second solid substrate, wherein the first redox species and the second redox species comprise different organometallic compounds, and wherein the second redox species is a neutral species in an oxidized state that is configured to become negatively charged upon reduction. 2. The asymmetric electrochemical system of claim 1 , wherein the first redox species in the oxidized state selectively binds to an electron-donating functional group of the target molecule such that the first redox species is configured to at least partially separate the target molecule from other competing organic anions and/or inorganic anions. 3. The asymmetric electrochemical system of claim 2 , wherein the first redox species comprises a metallocene. 4. The asymmetric electrochemical system of claim 3 , wherein the metallocene is a ferrocene-based redox species. 5. The asymmetric electrochemical system of claim 2 , wherein the electron-donating functional group of the target molecule comprises a carboxylate moiety, a sulfonate moiety, and/or a phosphonate moiety. 6. The asymmetric electrochemical system of claim 1 , wherein the second redox species undergoes a self-exchange reaction within the second electrode during operation of the electrochemical system. 7. The asymmetric electrochemical system of claim 1 , further comprising an electrolyte disposed between the first electrode and the second electrode. 8. The asymmetric electrochemical system of claim 7 , wherein the electrolyte comprises an aqueous medium and/or an organic medium. 9. The asymmetric electrochemical system of claim 4 , wherein the ferrocene-based redox species is polyvinyl(ferrocene). 10. The asymmetric electrochemical system of claim 1 , wherein the second redox species comprises an electron-accepting functional moiety. 11. The asymmetric electrochemical system of claim 1 , wherein the second redox species is a ferricyanide-based redox species. 12. The asymmetric electrochemical system of claim 1 , wherein the asymmetric electrochemical cell is configured such that a separation factor of the target molecule over the other competing organic anions and/or inorganic anions is at least 10. 13. The asymmetric electrochemical system of claim 1 , wherein the other competing organic anions and/or inorganic anions comprise PF 6 − and/or ClO 4 −l. 14. The asymmetric electrochemical system of claim 1 , wherein the second redox species is poly(anthraquinone). 15. An asymmetric electrochemical system comprising: a. a first electrode comprising a first conductive solid substrate and a first redox species immobilized to the first conductive solid substrate, wherein the first redox species in an oxidized state selectively binds to a target functional group of a target molecule such that the first redox species is configured to at least partially separate the target molecule from other competing organic anions and/or inorganic anions; and b. a second electrode comprising a second conductive solid substrate and a second redox species immobilized to the second solid substrate, wherein the first redox species and the second redox species comprise different organometallic compounds, wherein the second redox species comprises cobtalocenium hexafluorophosphate and/or poly(2-(methacrylolyoxy)ethyl cobaltocenium)). 16. The asymmetric electrochemical system of claim 15 , wherein the first redox species in the oxidized state selectively binds to an electron-donating functional group of the target molecule such that the first redox species is configured to at least partially separate the target molecule from other competing organic anions and/or inorganic anions. 17. The asymmetric electrochemical system of claim 16 , wherein the first redox species comprises a metallocene. 18. The asymmetric electrochemical system of claim 17 , wherein the metallocene is a ferrocene-based redox species. 19. The asymmetric electrochemical system of claim 18 , wherein the ferrocene-based redox species is polyvinyl(ferrocene). 20. The asymmetric electrochemical cell of claim 16 , wherein the electron-donating functional group of the target molecule comprises a carboxylate moiety, a sulfonate moiety, and/or a phosphonate moiety.