Method for manufacturing platinum nanoparticle solution and self-assembled platinum counter electrode thereof

What is claimed is: 1. A method for manufacturing platinum nanoparticle solution, comprising steps of: providing a polyol solution composed of H 2 PtCl 6 and ethylene glycol; and heating said polyol solution to 100-120° C. with reduction periods of 2-5 hours, and adjusting pH condition of said polyol solution between 2.7 and 4.9 by adding an NaOH solution so as to obtain said platinum nanoparticle solution. 2. The method for manufacturing platinum nanoparticle solution of claim 1 , wherein said polyol solution is formed by uniformly dissolving said H 2 PtCl 6 in said ethylene glycol. 3. The method for manufacturing platinum nanoparticles solution of claim 1 , wherein said polyol solution is heated to 110° C. with said reduction period of 4 hours. 4. The method for manufacturing platinum nanoparticles solution of claim 1 , wherein said pH condition of said polyol solution is adjusted to 3.7 by adding said NaOH solution. 5. A method for manufacturing self-assembled platinum counter electrode, comprising steps of: providing a conductive substrate and functionalizing said conductive substrate to create a modified surface of said conductive substrate; providing a platinum nanoparticle solution, comprising: providing a polyol solution composed of H 2 PtCl 6 and ethylene glycol; and heating said polyol solution to 100-120° C. with reduction periods of 2˜5 hours, and adjusting pH condition of said polyol solution between 2.7 and 4.9 by adding an NaOH solution so as to obtain said platinum nanoparticle solution; and dipping said conductive substrate having said modified surface into said platinum nanoparticles solution to self assemble a monolayer of platinum nanoparticles on said modified surface of said conductive substrate so as to obtain said self-assembled platinum counter electrode. 6. The method for manufacturing self-assembled platinum counter electrode of claim 5 , wherein said conductive substrate is a glass substrate or a flexible plastic substrate. 7. The method for manufacturing self-assembled platinum counter electrode of claim 5 , wherein said step of functionalizing said conductive substrate further comprising using bifunctional-organosilane compound to activate said conductive substrate such that a functional group comprising —NH 2 , —SH, —OH or —COOH dominates to create said modified surface of said conductive substrate. 8. The method for manufacturing self-assembled platinum counter electrode of claim 7 , further comprising dipping said conductive substrate in a superacid solution so said conductive substrate is covered with active hydroxyl group (—OH) before creating said modified surface of said conductive substrate. 9. The method for manufacturing self-assembled platinum counter electrode of claim 5 , wherein said polyol solution is formed by uniformly dissolving said H 2 PtCl 6 in said ethylene glycol. 10. The method for manufacturing self-assembled platinum counter electrode of claim 5 , wherein said polyol solution is heated to 110° C. with said reduction period of 4 hours. 11. The method for manufacturing self-assembled platinum counter electrode of claim 5 , wherein said pH condition of said polyol solution is adjusted to 3.7 by adding said NaOH solution. 12. The method for manufacturing self-assembled platinum counter electrode of claim 5 , wherein said conductive substrate having said modified surface is dipped into said platinum nanoparticles solution for 8-24 hours.