Carbon Dioxide Gas-Phase Reduction Device and Carbon Dioxide Gas-Phase Reduction Method

1 . A carbon dioxide gas phase reduction apparatus comprising: an oxidation tank including an oxidation electrode; a reduction tank which is adjacent to the oxidation tank and to which carbon dioxide is supplied; and a gas reduction sheet located between the oxidation tank and the reduction tank, wherein the gas reduction sheet is a sheet in which an ion exchange membrane and a reduction electrode are laminated, the ion exchange membrane is located on a side of the oxidation tank, and the reduction electrode is located on a side of the reduction tank, is connected to the oxidation electrode by a lead, and conducts a reduction reaction of the carbon dioxide by a current flowing through the lead. 2 . The carbon dioxide gas phase reduction apparatus according to claim 1 , further comprising a light source for irradiating the oxidation electrode with light. 3 . The carbon dioxide gas phase reduction apparatus according to claim 1 , further comprising a power source connected to the lead. 4 . The carbon dioxide gas phase reduction apparatus according to claim 1 , wherein the oxidation electrode comprises an n-type semiconductor. 5 . A carbon dioxide gas phase reduction method performed in a carbon dioxide gas phase reduction apparatus, the carbon dioxide gas phase reduction apparatus including an oxidation tank including an oxidation electrode, a reduction tank adjacent to the oxidation tank, and a gas reduction sheet located between the oxidation tank and the reduction tank, the gas reduction sheet being a sheet in which an ion exchange membrane and a reduction electrode are laminated, the ion exchange membrane being located on a side of the oxidation tank, the reduction electrode being located on a side of the reduction tank and connected to the oxidation electrode by a lead, the gas phase reduction method comprising: filling the oxidation tank with an aqueous solution; supplying carbon dioxide to the reduction tank, and flowing an electric current through the lead to cause a reduction reaction of the carbon dioxide at the reduction electrode. 6 . The gas phase reduction method for carbon dioxide according to claim 5 , wherein the aqueous solution is any one of a potassium hydroxide aqueous solution, a rubidium hydroxide aqueous solution, and a cesium hydroxide aqueous solution.