| abstract |
A solid oxide fuel cell is disclosed which is excellent in electricity generation characteristics even at lower temperatures (for example, in the range from 200˚C to 600˚C, preferably in the range from 400˚C to 600˚C). A method for producing such a solid oxide fuel cell is also disclosed. The solid oxide fuel cell comprises an anode, a cathode, and a first solid oxide which is held between the anode and the cathode. The anode contains a metal particle (2), an anode catalyst (1) and an ion conductor (3), and the anode catalyst (1) is adhered to the surface of the metal particle (2). The first solid oxide and the ion conductor (3) respectively have an ion conductivity selected from oxide-ion conductivity and hydrogen-ion conductivity. |