Positive electrode for sodium ion secondary battery and sodium ion secondary battery

The invention claimed is: 1. A positive electrode for a sodium ion secondary battery, comprising: a positive electrode active material that intercalates and deintercalates sodium ions, a conductive assistant, a binder, and a carboxylic acid, the binder contains a vinylidene fluoride-based polymer, the carboxylic acid has at least one of a boiling point and a thermal decomposition point, and whichever of the boiling point and the thermal decomposition point is lower being higher than 150° C.; wherein the positive electrode active material contains at least one sodium-containing transition metal oxide, the sodium-containing transition metal oxide contains a sodium-containing transition metal oxide represented by formula (1): Na x MeO 2 where element Me represents at least two transition metal elements selected from the group consisting of Ni, Ti, Mn, Fe and Co and contains at least one of Ni and Fe, and x represents a proportion of Na with respect to the element Me, the positive electrode active material contains at least one of a first oxide and a second oxide, the first oxide comprises a sodium-containing transition metal oxide having a P2-type layered crystal structure, the element Me being a combination of Ni, Ti, and Mn, and the second oxide comprises a sodium-containing transition metal oxide having an O3-type layered crystal structure, the element Me being a combination of Fe and Co. 2. A positive electrode for a sodium ion secondary battery, comprising: a positive electrode active material that intercalates and deintercalates sodium ions, a conductive assistant, a binder, and a carboxylic acid, the binder contains a vinylidene fluoride-based polymer, the carboxylic acid has at least one of a boiling point and a thermal decomposition point, and whichever of the boiling point and the thermal decomposition point is lower being higher than 150° C.; wherein the positive electrode active material contains at least one sodium-containing transition metal oxide, the sodium-containing transition metal oxide contains a sodium-containing transition metal oxide represented by formula (1): Na x MeO 2 where element Me represents at least two transition metal elements selected from the group consisting of Ni, Ti, Mn, Fe and Co and contains at least one of Ni and Fe, and x represents a proportion of Na with respect to the element Me, the positive electrode active material contains at least one of a first oxide and a second oxide, the first oxide comprises a sodium-containing transition metal oxide having a P2-type layered crystal structure, the element Me being a combination of Ni, Ti, and Mn, the second oxide comprises a sodium-containing transition metal oxide having an O3-type layered crystal structure, the element Me being a combination of Fe and Co, a stoichiometric ratio of Ni to Ti to Mn in the first oxide is 1/3:1/6:1/2, and a stoichiometric ratio of Fe to Co in the second oxide is 1/2:1/2.