Active material, nonaqueous electrolyte battery, battery pack, and vehicle

1 : An active material comprising a monoclinic niobium-titanium composite oxide in which a portion of niobium (Nb) or titanium (Ti) as a constituent element of Nb 2 TiO 7 is substituted by an element such that any one of following formulas (1) to (3) is satisfied: Ti(IV)→0.75M(V)+0.25M(I)  (1) Ti(IV)→0.6M(VI)+0.4M(I)  (2) Nb(V)→0.8M(VI)+0.2M(I)  (3), wherein M(VI) is at least one of Mo and W, M(V) is at least one of Nb, Ta, and V, and M(I) is at least one of Na, K, Rb, and Cs. 2 : The active material according to claim 1 , wherein the monoclinic niobium-titanium composite oxide is represented by any one of following general formulas (A) to (E): Nb 2 Ti 1-y (M(V) 0.75 M(I) 0.25 ) y O 7   (A) Nb 2 Ti 1-y (M(VI) 0.6 M(I) 0.4 ) y O 7   (B) Nb 2-x (M(VI) 0.8 M(I) 0.2 ) x TiO 7   (C) Nb 2-x (M(VI) 0.8 M(I) 0.2 ) x Ti 1-y (M(V) 0.75 M(I) 0.25 ) y O 7   (D) Nb 2-x (M(VI) 0.8 M(I) 0.2 ) x Ti 1-y (M(VI) 0.6 M(I) 0.4 ) y O 7   (E), wherein M(VI) is at least one of Mo and W, M(V) is at least one of Nb, Ta, and V, M(I) is at least one of Na, K, Rb, and Cs, 0<x≦1, and 0<y≦1. 3 : The active material according to claim 2 , wherein 0<y<1 in the general formulas (A), (B), (D), and (E). 4 : The active material according to claim 2 , wherein 0.1≦y≦0.9 in the general formulas (A), (B), (D), and (E). 5 : The active material according to claim 2 , wherein 0.1≦x≦1.0 in the general formulas (C), (D), and (E). 6 : The active material according to claim 1 , wherein the monoclinic niobium-titanium composite oxide is represented by any one of following general formulas (A′) to (E′): Li a Nb 2 Ti 1-y (M(V) 0.75 M(I) 0.25 ) y O 7   (A′) Li a Nb 2 Ti 1-y (M(VI) 0.6 M(I) 0.4 ) y O 7   (B′) Li a Nb 2-x (M(VI) 0.8 M(I) 0.2 ) x TiO 7   (C′) Li a Nb 2-x (M(VI) 0.8 M(I) 0.2 ) x Ti 1-y (M(V) 0.75 M(I) 0.25 ) y O 7   (D′) Li a Nb 2-x (M(VI) 0.8 M(I) 0.2 ) x Ti 1-y (M(VI) 0.6 M(I) 0.4 ) y O 7   (E′), where M(VI) is at least one of Mo and W, M(V) is at least one of Nb, Ta, and V, M(I) is at least one of Na, K, Rb, and Cs, 0<x≦1, 0<y≦1, and 0≦a≦5. 7 : The active material according to claim 6 , wherein 0<y<1 in the general formulas (A′), (B′), (D′), and (E′). 8 : The active material according to claim 6 , wherein 0.1≦y≦0.9 in the general formulas (A′), (B′), (D′), and (E′). 9 : The active material according to claim 6 , wherein 0.1≦x≦1.0 in the general formulas (C), (D), and (E). 10 : The active material according to claim 1 , wherein in the monoclinic niobium-titanium composite oxide, a portion of the titanium is substituted by at least one of Zr, Hf, Ge, and Sn. 11 : The active material according to claim 1 , wherein in the monoclinic niobium-titanium composite oxide, a portion of the titanium is substituted by at least one of Zr, Hf, and Ge, such that an amount of substitution with respect to Ti sites of a crystal structure of the monoclinic niobium-titanium composite oxide is half or less. 12 : A nonaqueous electrolyte battery comprising: a negative electrode comprising the active material according to claim 1 ; a positive electrode; and a nonaqueous electrolyte. 13 : A battery pack comprising the nonaqueous electrolyte battery according to claim 12 . 14 : The battery pack according to claim 13 , wherein the battery pack further comprises a protective circuit and an external power distribution terminal. 15 : The battery pack according to claim 13 , wherein the battery pack comprises a plurality of the nonaqueous electrolyte batteries, wherein the plural nonaqueous electrolyte batteries are electrically connected in series, in parallel, or in a combination of in series and in parallel. 16 : A vehicle onto which is mounted the battery pack according to claim 13 . 17 : The vehicle according to claim 16 , wherein the battery pack is configured to recover a regenerative energy of a power of the vehicle.