Electroosmotic pump and fluid pumping system including the same

We claim: 1. A fluid pumping system, comprising: an electroosmotic pump comprising a membrane that allows a fluid to move therethrough; a first electrode and a second electrode which are respectively provided at two opposite sides of the membrane, and each of which is formed of a porous material or has a porous structure to allow a fluid to move therethrough, a separation member provided on at least one end of the electroosmotic pump, and configured to separate the fluid and a transfer target fluid, a transfer line configured to provide a path through which the transfer target fluid is transferred by the pumping force received from the electroosmotic pump, and a first opening/closing member near a first end of the transfer line that is connected to a transfer target fluid source and a second opening/closing member provided near a second end of the transfer line that is connected to the outside of the fluid pumping system, and configured to allow or block a flow of the target transfer fluid, wherein each of the first electrode and the second electrode contains a conductive polymer in which an anionic polymer is included, wherein the conductive polymer incurs a reversible electrochemical reaction, and the electrochemical reaction of the first electrode and the second electrode takes place as a cation is moved in a direction whereby a charge balance is established. 2. The electroosmotic pump of claim 1 , wherein the conductive polymer is formed through polymerization of a monomer in a solution containing the anionic polymer. 3. The electroosmotic pump of claim 1 , wherein the cation exists in the fluid as a result of dissociation of the fluid. 4. The electroosmotic pump of claim 1 , wherein one of the first electrode and the second electrode generates a cation through the electrochemical reaction, whereas the other of the first electrode and the second electrode consumes the cation through the electrochemical reaction. 5. The electroosmotic pump of claim 4 , wherein the cation includes a monovalent cation. 6. The electroosmotic pump of claim 5 , wherein the cation includes a hydrogen ion (H + ). 7. The electroosmotic pump of claim 1 , wherein the conductive polymer includes one selected from the group consisting of polyaniline, polypyrrole, polythiophene, polythionine, quinone polymer, derivatives thereof, and combinations thereof. 8. The electroosmotic pump of claim 1 , wherein the anionic polymer includes one selected from the group consisting of polystyrene sulfonate, SPEEK (sulfonated-polyetheretherketone), polyacrylate, polyvinylphosphonate, polyoxometalate, nafion, derivatives thereof, and combinations thereof. 9. The electroosmotic pump of claim 1 , wherein each of the first electrode and the second electrode includes a carbon nanostructure. 10. The electroosmotic pump of claim 9 , wherein the carbon nanostructure includes one or more of a carbon nanotube (CNT), graphene, a carbon nanoparticle, fullerene, and graphite. 11. The electroosmotic pump of claim 1 , wherein the electrochemical reaction is allowed to occur in a forward direction and in a reverse direction repeatedly by supplying a voltage to each of the first electrode and the second electrode while reversing a polarity of the voltage alternately, thus generating a pumping force through repeated reciprocating movements of the fluid, and each of the first electrode and the second electrode is consumed and reproduced repeatedly by the electrochemical reaction that occurs in the forward direction and in the reverse direction repeatedly. 12. The electroosmotic pump of claim 11 , further comprising: a power supply unit configured to supply a voltage to each of the first electrode and the second electrode while reversing a polarity of the voltage alternately. 13. The electroosmotic pump of claim 12 , wherein the power supply unit includes: a DC power supply unit configured to supply a DC voltage to each of the first electrode and the second electrode; and a voltage direction switching device configured to alternately reverse, at a preset time interval, a polarity of the DC voltage which is supplied to each of the first electrode and the second electrode. 14. The fluid pumping system of claim 1 , wherein the electroosmotic pump is configured to generate the pumping force through repeated reciprocating movements of the fluid by transmitting a suction force and an expulsive force to the transfer target fluid repeatedly through the separation member. 15. The fluid pumping system of claim 1 , further comprising: a pumping line branched from a portion of the transfer line between the first opening/closing member and the second opening/closing member, and connected to the electroosmotic pump, and configured to transmit the pumping force to the transfer line. 16. The fluid pumping system of claim 15 , wherein opening and closing of the first opening/closing member is opposite to opening and closing of the second opening/closing member. 17. The fluid pumping system of claim 16 , wherein if the suction force is transmitted to the transfer target fluid, the first opening/closing member is opened whereas the second opening/closing member is closed, and if the expulsive force is transmitted to the transfer target fluid, the first opening/closing member is closed whereas the second opening/closing member is opened.