Mixed metal manganese oxide material

What is claimed is: 1 . A homogenously mixed composition comprising: a chemical formula of: M x Mn 1-x O y D d ,   [Chemical Formula 1], wherein M in Chemical Formula 1 represents a combination of at least two metals selected from a group consisting of: cesium, nickel, copper, bismuth, cobalt, magnesium, iron, aluminum, scandium, vanadium, chromium, silver, gold, titanium, and, lead; wherein D in Chemical Formula 1 represents a charge balancing anionic species, wherein a sum of a valance of M and Mn is equal to a sum of y and d, wherein ‘x’ is between 0.001 to 0.999, and, wherein the homogenously mixed composition comprises an x-ray powder diffraction pattern exhibiting peaks at d-spacings in Table A: TABLE A 2θ(°) d(Å) 23.9 3.72 31.6 2.82 37.3 2.41 42.8 2.11 56.3 1.63 2 . The homogenously mixed composition of claim 1 , wherein M in Chemical Formula 1 represents a combination of at least two metals selected from a group consisting of: cesium, nickel, copper, bismuth, cobalt, magnesium, iron, and, lead. 3 . The homogenously mixed composition of claim 1 , wherein M represents bismuth and at least one other metal selected from a group consisting of: cesium, nickel, copper, cobalt, magnesium, iron, aluminum, scandium, vanadium, chromium, silver, gold, titanium, and, lead. 4 . The homogenously mixed composition of claim 1 , wherein M represents nickel and at least one other metal selected from a group consisting of: cesium, bismuth, copper, cobalt, magnesium, iron, aluminum, scandium, vanadium, chromium, silver, gold, titanium, and, lead. 5 . The homogenously mixed composition of claim 1 , wherein M represents copper and at least one other metal selected from a group consisting of: cesium, bismuth, nickel, cobalt, magnesium, iron, aluminum, scandium, vanadium, chromium, silver, gold, titanium, and, lead. 6 . The homogenously mixed composition of claim 1 , wherein the charge balancing anionic species is selected from the group consisting of: fluorine (F − ), chlorine (Cl − ), bromine (Br − ), carbonate (CO 3 −2 ), and nitrate (NO 3 −1 ). 7 . A rechargeable battery comprising: a housing; an anode material inside the housing; a cathode material inside the housing and electrically separated from the anode material; and, an electrolyte in the housing, wherein the cathode material comprises a chemical formula of: M x Mn 1-x O y D d ,   [Chemical Formula 1], wherein M in Chemical Formula 1 is a combination of at least two metals selected from a group consisting of: cesium, nickel, copper, bismuth, cobalt, magnesium, iron, aluminum, scandium, vanadium, chromium, silver, gold, titanium, and, lead; wherein D in Chemical Formula 1 is a charge balancing anionic species, wherein a sum of a valance of M and Mn is equal to a sum of y and d, and, wherein ‘x’ is between 0.001 to 0.999, and, wherein the cathode material comprises an x-ray powder diffraction pattern exhibiting peaks at d-spacings listed in Table A: TABLE A 2θ(°) d(Å) 23.9 3.72 31.6 2.82 37.3 2.41 42.8 2.11 56.3 1.63 8 . The rechargeable battery of claim 7 , wherein M in Chemical Formula 1 represents a combination of at least two metals selected from a group consisting of: cesium, nickel, copper, bismuth, cobalt, magnesium, iron, and, lead. 9 . The rechargeable battery of claim 7 , wherein M represents bismuth and at least one other metal selected from a group consisting of: cesium, nickel, copper, cobalt, magnesium, iron, aluminum, scandium, vanadium, chromium, silver, gold, titanium, and, lead. 10 . The rechargeable battery of claim 7 , wherein M represents nickel and at least one other metal selected from a group consisting of: cesium, bismuth, copper, cobalt, magnesium, iron, aluminum, scandium, vanadium, chromium, silver, gold, titanium, and, lead. 11 . The rechargeable battery of claim 7 , wherein M represents copper and at least one other metal selected from a group consisting of: cesium, bismuth, nickel, cobalt, magnesium, iron, aluminum, scandium, vanadium, chromium, silver, gold, titanium, and, lead. 12 . The rechargeable battery of claim 7 , wherein the charge balancing anionic species is selected from the group consisting of: fluorine (F − ), chlorine (Cl − ), bromine (Br − ), carbonate (CO 3 −2 ), and nitrate (NO 3 −1 ). 13 . A method for forming a composition having a chemical formula of M x Mn 1-x O y D d ,   [Chemical Formula 1], wherein M in Chemical Formula 1 represents a combination of at least two metals selected from a group consisting of cesium, nickel, copper, bismuth, cobalt, magnesium, iron, aluminum, scandium, vanadium, chromium, silver, gold, titanium, and, lead, wherein D in Chemical Formula 1 is a charge balancing anionic species, wherein a sum of a valance of M and Mn in Chemical Formula 1 is equal to a sum of y and d, and, wherein ‘x’ in Chemical Formula 1 is between 0.001 to 0.999, the method comprising: forming a slurry mixture comprising a protic solvent, a source of Mn, and a source of each metal represented by M in Chemical Formula 1; reacting the slurry mixture at an elevated temperature in a presence of an ammonia-based activator; and, recovering a material comprising the composition from the slurry mixture after reacting the slurry mixture at the elevated temperature in the presence of the ammonia-based activator. 14 . The method of claim 13 , wherein the source of Mn is a nitrate salt.