Alloyed halide double perovskites as solar-cell absorbers

What is claimed is: 1. A solar cell comprising a solar-cell absorber layer comprising a halide double perovskite material having a formula: A 2 B 1-a B′ 1-b D x X 6 where B and/or B′ is alloyed by D to produce an alloyed halide double perovskite material, where A is an inorganic cation, an organic cation, a mixture of inorganic cations, a mixture of organic cations, or a mixture of one or more inorganic cations and one or more organic cations, where D is a dopant, where x=a+b, and where a is not equal to b when D is a single metal or a single metalloid, where X is a halide, a pseudohalide, a mixture of halides, a mixture of pseudohalides, or a mixture of halides and pseudohalides, and where B is a metal, a mixture of metals, a metalloid, a mixture of metalloids, or any mixture thereof, and B′ is a metal, a mixture of metals, a metalloid, a mixture of metalloids, or any mixture thereof, or where B is a metal, a mixture of metals, a metalloid, a mixture of metalloids, or any mixture thereof, and B′ is a vacancy, or where B′ is a metal, a mixture of metals, a metalloid, a mixture of metalloids, or any mixture thereof, and B is a vacancy. 2. The solar cell of claim 1 , wherein the dopant is Tl, In, Ga, Bi, Sb, As, Se, Te, Pb, Sn, Cu, Au, Zn, Cd, Hg, Sc, Y, Mn, Fe, K, Rb, Cs, Ca, Sr, Ba, La, Ti, Zr, Hf, Ag, Al, Ge, S, V, Nb, or any mixture thereof. 3. The solar cell of claim 1 , wherein the alloyed halide double perovskite material is (MA) 2 (Tl 1-a Bi 1-b )Ag x Br 6 , x=a+b=0.2. 4. The solar cell of claim 1 , wherein the alloyed halide double perovskite material is Cs 2 (Ag 1-a Bi 1-b )Tl x Br 6 (x=a+b=0.003−0.075). 5. A composition comprising a halide double perovskite material having a formula: A 2 B 1-a B′ 1-b D x X 6 where B and/or B′ is alloyed by D to produce an alloyed halide double perovskite material, where A is an inorganic cation, an organic cation, a mixture of inorganic cations, a mixture of organic cations, or a mixture of one or more inorganic cations and one or more organic cations, where D is a dopant, where x=a+b, and where a is not equal to b when D is a single metal or a single metalloid, where X is a halide, a pseudohalide, a mixture of halides, a mixture of pseudohalides, or a mixture of halides and pseudohalides, and where B is a metal, a mixture of metals, a metalloid, a mixture of metalloids, or any mixture thereof, and B′ is a metal, a mixture of metals, a metalloid, a mixture of metalloids, or any mixture thereof, or where B is a metal, a mixture of metals, a metalloid, a mixture of metalloids, or any mixture thereof, and B′ is a vacancy, or where B′ is a metal, a mixture of metals, a metalloid, a mixture of metalloids, or any mixture thereof, and B is a vacancy. 6. The composition of claim 5 , wherein the dopant is Tl, In, Ga, Bi, Sb, As, Se, Te, Pb, Sn, Cu, Au, Zn, Cd, Hg, Sc, Y, Mn, Fe, K, Rb, Cs, Ca, Sr, Ba, La, Ti, Zr, Hf, Ag, Al, Ge, S, V, Nb, or any mixture thereof. 7. The composition of claim 5 , wherein the alloyed halide double perovskite material is (MA) 2 (Tl 1-a Bi 1-b )Ag x Br 6 , x=a+b=0.2. 8. The composition of claim 5 , wherein the alloyed halide double perovskite material is Cs 2 (Ag 1-a Bi 1-b )Tl x Br 6 (x=a+b=0.003−0.075). 9. A solar absorber for a photovoltaic cell, the solar absorber comprising a halide double perovskite material having a formula: A 2 B 1-a B′ 1-b D x X 6 where B and/or B′ is alloyed by D to produce an alloyed halide double perovskite material, where A is an inorganic cation, an organic cation, a mixture of inorganic cations, a mixture of organic cations, or a mixture of one or more inorganic cations and one or more organic cations, where D is a dopant, where x=a+b, and where a is not equal to b when D is a single metal or a single metalloid, where X is a halide, a pseudohalide, a mixture of halides, a mixture of pseudohalides, or a mixture of halides and pseudohalides, and where B is a metal, a mixture of metals, a metalloid, a mixture of metalloids, or any mixture thereof, and B′ is a metal, a mixture of metals, a metalloid, a mixture of metalloids, or any mixture thereof, or where B is a metal, a mixture of metals, a metalloid, a mixture of metalloids, or any mixture thereof, and B′ is a vacancy, or where B′ is a metal, a mixture of metals, a metalloid, a mixture of metalloids, or any mixture thereof, and B is a vacancy. 10. The solar absorber of claim 9 , wherein the dopant is Tl, In, Ga, Bi, Sb, As, Se, Te, Pb, Sn, Cu, Au, Zn, Cd, Hg, Sc, Y, Mn, Fe, K, Rb, Cs, Ca, Sr, Ba, La, Ti, Zr, Hf, Ag, Al, Ge, S, V, Nb, or any mixture thereof. 11. The solar absorber of claim 9 , wherein the alloyed halide double perovskite material is (MA) 2 (Tl 1-a Bi 1-b )Ag x Br 6 , x=a+b=0.2. 12. The solar absorber of claim 9 , wherein the alloyed halide double perovskite material is Cs 2 (Ag 1-a Bi 1-b )Tl x Br 6 (x=a+b=0.003−0.075).