Cell, cell stack device, module and module-containing device

1 . A cell comprising: a porous supporting body; a first electrode layer located on the porous supporting body; a solid electrolyte layer that is formed of a ceramic and is located on the first electrode layer; and a second electrode located on the solid electrolyte layer, wherein an amount of Na in the porous supporting body is 30×10 −6 mass % or less. 2 . A cell comprising: a porous supporting body that serves as a first electrode layer; a solid electrolyte layer that is formed of a ceramic and is located on the porous supporting body; and a second electrode located on the solid electrolyte layer, wherein an amount of Na in the porous supporting body is 30×10 −6 mass % or less. 3 . The cell according to claim 1 , wherein the porous supporting body contains at least one of Ni and NiO, and an inorganic oxide other than NiO. 4 . The cell according to claim 1 , wherein the porous supporting body has an open porosity of 30% or more. 5 . The cell according to claim 1 , wherein the porous supporting body has an elongated plate shape and a thickness thereof is 5 mm or less. 6 . The cell according to claim 2 , wherein the porous supporting body has an elongated plate shape and a thickness thereof is 5 mm or less. 7 . The cell according to claim 5 , wherein the first electrode layer, the solid electrolyte layer, and the second electrode layer are arranged on a first main surface of the porous supporting body, and a interconnector layer is arranged on a second main surface opposing the first main surface, and the porous supporting body comprises a gas flow path therein, the gas flow path extending in a longitudinal direction of the porous supporting body. 8 . The cell according to claim 6 , wherein the solid electrolyte layer and the second electrode layer are arranged on a first main surface of the porous supporting body and a interconnector layer is arranged on a second main surface opposing the first main surface, and the porous supporting body comprises a gas flow path therein, the gas flow path extending in a longitudinal direction of the porous supporting body. 9 . The cell according to claim 7 , wherein the interconnector layer is formed of a lanthanum chromite-based material. 10 . The cell according to claim 5 , wherein the porous supporting body comprises a supporting body central portion which is provided in a central portion in a width direction of the porous supporting body, and a supporting body end portion, which is provided at each side in the width direction of the supporting body central portion with a shape bulged in a thickness direction of the supporting body central portion. 11 . The cell according to claim 10 , wherein the solid electrolyte layer is provided on the first main surface of the porous supporting body in the supporting body central portion and the supporting body end portion, the second electrode layer is provided on the first main surface in the supporting body central portion, and at least a part of a surface of the second electrode layer is positioned further to the outside than a surface of the solid electrolyte layer at the supporting body end portion. 12 . The cell according to claim 10 , wherein the supporting body central portion and the supporting body end portion each comprise a gas flow path, and a cross-sectional area of the gas flow path in the supporting body end portion is smaller than a cross-sectional area of the gas flow path in the supporting body central portion. 13 . A cell stack device comprising: a plurality of the cells according to claim 1 , the plurality of cells being electrically connected. 14 . A module comprising: the cell stack device according to claim 13 ; and a housing container, the cell stack device being housed in the housing container. 15 . A module-containing device comprising: the module according to claim 14 ; and an auxiliary device for operating the module, the module and the auxiliary device being housed in an external case of the module-containing device.