Magnesium Air Battery and Manufacturing Method of It

1 . A magnesium-air battery comprising: a positive electrode composed of an air electrode; a negative electrode made of magnesium or a magnesium alloy containing magnesium and any one or more of the group consisting of iron, calcium, and aluminum; and an electrolyte which is disposed between the positive electrode and the negative electrode and is composed of a salt. 2 . The magnesium-air battery according to claim 1 , wherein the air electrode is composed of a co-continuous body having a three-dimensional network structure formed of a plurality of nanostructures integrated by non-covalent bonds. 3 . The magnesium-air battery according to claim 2 , wherein the nanostructure of the air electrode is a compound containing carbon or iron oxide, and is a nanosheet composed of at least one of carbon and iron oxide, or is a compound containing carbon, iron oxide, or cellulose, and is a nanofiber composed of at least one of carbon, iron oxide, and cellulose. 4 . The magnesium-air battery according to claim 1 , wherein the electrolyte is an aqueous solution or gel containing magnesium acetate. 5 . The magnesium-air battery according to claim 1 , further comprising a housing that accommodates the positive electrode, the negative electrode, and the electrolyte, wherein the housing has an air hole that exposes the air electrode to the atmosphere. 6 . The magnesium-air battery according to claim 5 , wherein battery cells including the positive electrode, the negative electrode, and the electrolyte are connected in series in the housing. 7 . A method for manufacturing a magnesium-air battery, the method comprising: a step of obtaining a positive electrode composed of an air electrode; a step of obtaining a negative electrode made of magnesium or a magnesium alloy containing magnesium and any one or more of the group consisting of iron, calcium, and aluminum; and a step of disposing an electrolyte composed of a salt between the positive electrode and the negative electrode, wherein the air electrode is composed of a co-continuous body having a three-dimensional network structure formed of a plurality of nanostructures integrated by non-covalent bonds, and the step of obtaining the positive electrode includes: a freezing step of freezing a sol or gel in which the nanostructures are dispersed to obtain a frozen material; and a drying step of drying the frozen material in a vacuum to obtain the co-continuous body. 8 . A method for manufacturing a magnesium-air battery, the method comprising: a step of obtaining a positive electrode composed of an air electrode; a step of obtaining a negative electrode made of magnesium or a magnesium alloy containing magnesium and any one or more of the group consisting of iron, calcium, and aluminum; and a step of disposing an electrolyte composed of a salt between the positive electrode and the negative electrode, wherein the air electrode is composed of a co-continuous body having a three-dimensional network structure formed of a plurality of nanostructures integrated by non-covalent bonds, and the step of obtaining the positive electrode includes: a production step of causing bacteria to produce a gel in which nanofibers of any of iron oxide, manganese oxide, silicon, and cellulose are dispersed; and a carbonization step of heating and carbonizing the gel in an inert gas atmosphere to obtain the co-continuous body.