Method for manufacturing electrochemical device having exposed metal layer outside packaging

What is claimed is: 1. A method for manufacturing an electrochemical device forming a chip-capacitor or a super-capacitor, the method comprising the steps of: manufacturing a ceramic substrate having a nonconductive ceramic layer, a current collecting layer disposed on the nonconductive ceramic layer and made of cermet so as to improve bonding force with the non-conductive ceramic layer, and a metal layer arranged on outer surfaces of the nonconductive ceramic layer and the current collecting layer; forming an electrode having a positive electrode and a negative electrode on the current collecting layer; and manufacturing a nonconductive ceramic packaging module configured to accommodate electrolyte therein, wherein the metal layer is exposed to outside of the nonconductive ceramic packaging module; and wherein the step of manufacturing the ceramic substrate further comprises the steps of: laminating a plurality of green sheets to form the nonconductive ceramic layer; laminating the current collecting layer onto the nonconductive ceramic layer; forming an interspace in the current collecting layer; bonding, by a sintering process, the current collecting layer having the interspace to an upper surface of the nonconductive ceramic layer; and applying a hydrogen reduction treatment to the bonded current collecting layer and upper surface of the nonconductive ceramic layer to form a substrate containing the interspace. 2. The method for manufacturing an electrochemical device according to claim 1 , wherein the step of manufacturing the ceramic substrate further comprises the steps of: producing slurry using at least one selected from a group of binder, plasticizer, dispersant, and solvent, and ceramic powder or metallic oxide-ceramic mixed powder, or metal-ceramic mixed powder; and manufacturing the green sheets by transforming the slurry into a tape type molded body using a tape caster. 3. The method for manufacturing an electrochemical device according to claim 1 , further comprising the steps of: forming the metal layer on the outer surfaces of the nonconductive ceramic layer and the current collecting layer, to which the hydrogen reduction treatment is applied; and coating an upper surface of the current collecting layer through at least one among electric gilding, gold immersion plating, conductive polymer coating, and carbon coating in order to improve conductivity of the current collecting layer. 4. The method for manufacturing an electrochemical device according to claim 1 , wherein the step of manufacturing the nonconductive ceramic packaging module comprises the steps of: laminating the plurality of the green sheets through the lamination process so as to manufacture a laminated sheet having a thickness corresponding to a thickness of the ceramic substrate; and cutting the laminated sheet through a laser cutting process to form an electrolyte-accommodating space, and wherein the electrolyte-accommodating space is formed to be higher than the electrode. 5. The method for manufacturing an electrochemical device according to claim 4 , wherein the nonconductive ceramic packaging module includes an external wall layer and a cover layer to form the electrolyte-accommodating space, and the cover layer has a central hole formed at the center thereof for injection and defoamation of liquid electrolyte, and wherein the step of manufacturing the nonconductive ceramic packaging module further comprises the steps of: bonding the external wall layer with the cover layer through the lamination process; and sintering the external wall layer and the cover layer which are bonded. 6. The method for manufacturing an electrochemical device according to claim 1 , wherein the nonconductive ceramic packaging module is arranged on the ceramic substrate. 7. The method for manufacturing an electrochemical device according to claim 1 , wherein the metal layer is arranged only on opposing side walls of the bonded current collecting layer having the interspace and the nonconductive ceramic layer. 8. The method for manufacturing an electrochemical device according to claim 7 , wherein the metal layer contacts each of two opposite sides of the bonded current collecting layer.