Layered double hydroxide electride and method for producing same

The invention claimed is: 1. A layered double hydroxide electride which comprises electrons between layers and which has an electron density of 2.0×10 18 cm −3 or more. 2. The layered double hydroxide electride according to claim 1 , wherein the layered double hydroxide electride is a layered double hydroxide electride represented by a general formula (1), [M p+ 1-x N q+ x (OH) 2 ] a+ [A r- (b-y) e − y ]·m H 2 O  (1) wherein, in the general formula (1), M is a metal element capable of forming at least a monovalent metal cation; N is different from M, and is a metallic element capable of forming at least a monovalent metal cation; A is an atom or group of atoms capable of forming at least a monovalent anion; p is 1 or 2; q is 3 or 4; r is 1 to 3; 0<x<0.9; a=p×(1−x)+x×q−2; b≥ a/r; 0<y≤b; and 0≤m≤10. 3. A method of producing a layered double hydroxide electride, comprising a step of mixing a starting layered double hydroxide and an electron exchanger which exchanges an anion existing between layers of the starting layered double hydroxide for an electron. 4. The method of producing a layered double hydroxide electride according to claim 3 , wherein the electron exchanger is a mixture of a crown ether compound and a THF-based organic solvent having an alkali metal. 5. The method of producing a layered double hydroxide electride according to claim 3 , wherein the layered double hydroxide electride is a layered double hydroxide electride represented by a general formula (1); and the starting layered double hydroxide is a layered double hydroxide represented by a general formula (2), [M p+ 1-x N q+ x (OH) 2 ] a+ [A r- (b-y) e − y ]·m H 2 O  (1) wherein, in the general formula (1), M is a metal element capable of forming at least a monovalent metal cation; N is different from M, and is a metallic element capable of forming at least a monovalent metal cation; A is an atom or group of atoms capable of forming at least a monovalent anion; p is 1 or 2; q is 3 or 4; r is 1 to 3; 0<x<0.9; a=p×(1−x)+x×q−2; b≥a/r; 0<y≤b; and 0≤m≤10, [M p+ 1-x N q+ x (OH) 2 ] a+ [A r- b ]·m H 2 O  (2) wherein, in the general formula (2), M, N, A, p, q, r, x, a, b, y, m have the same meaning as M, N, A, p, q, r, x, a, b, y, m in the general formula (1). 6. The method of producing a layered double hydroxide electride according to claim 4 , wherein the crown ether compound is at least one crown ether compound selected from the group consisting of 15-crown-5-ether, 12-crown-4-ether, and 18-crown-6-ether. 7. The method of producing a layered double hydroxide electride according to claim 4 , wherein the alkali metal is sodium. 8. The method of producing a layered double hydroxide electride according to claim 4 , wherein the crown ether compound is at least one crown ether compound selected from the group consisting of 15-crown-5-ether, 12-crown-4-ether, and 18-crown-6-ether; and the alkali metal is sodium. 9. The method of producing a layered double hydroxide electride according to claim 4 , comprising: a mixing step of mixing the crown ether with the THF-based solvent of the alkali metal to obtain a mixed liquid; a producing step of adding the starting layered double hydroxide to the mixed liquid to produce a layered double hydroxide electride; a cleaning step of cleaning the layered double hydroxide electride obtained in the producing step; and a drying step of drying the layered double hydroxide electride obtained in the cleaning step.