Solid oxide fuel cell with electric conductive patterns on anode and cathode

The invention claimed is: 1. A solid oxide fuel cell, comprising: a battery cell including a cathode, an anode, and an electrolyte layer provided between the cathode and the anode, the cathode having a first surface facing the electrolyte layer and a second surface opposite the first surface of the cathode, the anode having a first surface facing the electrolyte layer and a second surface opposite the first surface of the anode; a first separator positioned on the second surface of the cathode and provided with a flow channel pattern having a groove pattern and a protrusion pattern, to which air is supplied; a second separator positioned on the second surface of the anode and provided with a flow channel pattern having a groove pattern and a protrusion pattern, to which fuel is supplied; an electric conductive pattern provided on the second surface of the anode and facing the second separator along the groove pattern of the second separator, wherein the electric conductive pattern is inserted into the groove pattern of the second separator; and an additional electric conductive pattern formed on the second surface of the cathode and facing the first separator along the protrusion pattern of the first separator, wherein the additional electric conductive pattern is in contact with an end of the protrusion pattern of the first separator. 2. The solid oxide fuel cell of claim 1 , further comprising: an anode current collector provided between the anode and the second separator, wherein the electric conductive pattern is formed on a surface of the anode current collector facing the second separator. 3. The solid oxide fuel cell of claim 1 , wherein an average line width of the groove pattern of the second separator is equal to or smaller than an average line width of the electric conductive pattern. 4. The solid oxide fuel cell of claim 1 , wherein a porosity of the electric conductive pattern is 30% or more. 5. The solid oxide fuel cell of claim 1 , wherein an average height of the electric conductive pattern is equal to or smaller than a half of an average height of the groove pattern of the second separator. 6. The solid oxide fuel cell of claim 1 , wherein an electric conductivity of the electric conductive pattern is 400 S/cm or more. 7. The solid oxide fuel cell of claim 1 , wherein the electric conductive pattern includes nickel or nickel oxide. 8. The solid oxide fuel cell of claim 1 , further comprising: a cathode current collector provided between the cathode and the first separator. 9. A solid oxide fuel cell, comprising: a battery cell including a cathode, an anode, and an electrolyte layer provided between the cathode and the anode, the cathode having a first surface facing the electrolyte layer and a second surface opposite the first surface of the cathode, the anode having a first surface facing the electrolyte layer and a second surface opposite the first surface of the anode; a first separator positioned on the second surface of the cathode and provided with a flow channel pattern having a groove pattern and a protrusion pattern, to which air is supplied; a second separator positioned on the second surface of the anode and provided with a flow channel pattern having a groove pattern and a protrusion pattern, to which fuel is supplied; an electric conductive pattern provided on the second surface of the anode and facing the second separator along the groove pattern of the second separator, wherein the electric conductive pattern is inserted into the groove pattern of the second separator; and an additional electric conductive pattern formed on the second surface of the cathode and facing the first separator along the groove pattern of the first separator, wherein the additional electric conductive pattern is inserted into the groove pattern of the first separator. 10. A battery module including the solid oxide fuel cell of claim 1 as a unit cell.