Solid oxide fuel cell, fuel cell stack device, fuel cell module, and fuel cell apparatus

1 . A solid oxide fuel cell comprising: a fuel electrode layer; a solid electrolyte layer on the fuel electrode layer, the solid electrolyte layer having at least one hole extending therethrough in a thickness direction; an oxygen electrode layer on the solid electrolyte layer; and a sealant consisting essentially of glass disposed in a sealant portion within the at least one hole; wherein a space is formed between the fuel electrode layer and the sealant portion. 2 . A solid oxide fuel cell comprising: a fuel electrode layer; a solid electrolyte layer on the fuel electrode layer, the solid electrolyte layer having at least one hole extending therethrough in a thickness direction; an oxygen electrode layer on the solid electrolyte layer; and a sealant consisting essentially of glass defining a sealant portion disposed within the at least one hole; wherein a space is formed between the fuel electrode layer and the sealant portion. 3 . The solid oxide fuel cell according to claim 1 , wherein the at least one hole has and average diameter of 1 mm or less. 4 . The solid oxide fuel cell according to claim 1 , wherein an upper surface of the sealant portion in flat or concave. 5 . The solid oxide fuel cell according to claim 1 , wherein the solid electrolyte layer has an average thickness 5 μm to 20 μm. 6 . The solid oxide fuel cell according to claim 1 , wherein the solid electrolyte layer has a first surface connecting to the fuel electrode layer, and a second surface which is located opposite to the first surface; wherein the second surface has a sealant layer around at least one hole; and wherein the sealant layer is in contact with the sealant portion. 7 . The solid oxide fuel cell according to claim 2 , wherein the solid electrolyte layer has a first surface connecting to the fuel electrode layer, and a second surface which is located opposite to the first surface; wherein the second surface has a sealant layer around at least one hole; and wherein the sealant layer is in contact with the sealant portion. 8 . The solid oxide fuel cell according to claim 7 , wherein an upper surface of the sealant layer in flat or concave. 9 . The solid oxide fuel cell according to claim 1 , further comprising an interconnector electrically connected to the fuel electrolyte layer, wherein the interconnector and the solid electrolyte later form a cylindrical body and an internal portion of the cylindrical body comprises the fuel electrolyte layer and fuel gas channels. 10 . A solid oxide fuel cell comprising: a fuel electrode layer; a solid electrolyte layer on the fuel electrode layer; an oxygen electrode layer on the solid electrolyte layer; an interconnector electrically connected to the fuel electrode layer or the oxygen electrode layer, the interconnector having at least one hole extending therethrough in a thickness direction; an intermediate layer formed on one side of the interconnector; and a sealant consisting essentially of glass disposed in a sealant portion within the at least one hole; wherein a space is formed between the intermediate layer and the sealant portion. 11 . The solid oxide fuel cell according to claim 10 , wherein the at least one hole has and average diameter of 1 mm or less. 12 . The solid oxide fuel cell according to claim 10 , wherein an upper surface of the sealant portion in flat or concave. 13 . The solid oxide fuel cell according to claim 10 , wherein the interconnector has an average thickness 10 μm to 40 μm. 14 . The solid oxide fuel cell according to claim 10 , wherein the interconnector has a first surface connecting to the intermediate layer, and a second surface which is located opposite to the first surface; wherein the second surface has a sealant layer around at least one hole; and wherein the sealant layer is in contact with the sealant portion. 15 . A fuel cell stack device, comprising a plurality of the arrayed solid oxide fuel cells according to claim 10 , wherein the solid oxide fuel cells are electrically connected to each other. 16 . A fuel cell module, comprising the fuel cell stack device according to claim 15 in a storage vessel. 17 . A fuel cell apparatus, further comprising a cover case; the fuel cell module according to claim 16 in the cover case; and an auxiliary device in the cover case for operating the fuel cell module.