Phosphor and method for producing the phosphor

What is claimed: 1. A phosphor having the general molecular formula: (MA) a (MB) b (TA) c (TB) f (TC) g (TD) h (XB) l (XC) m :E, wherein MA is selected from a group of monovalent metals consisting of Li, Na, K, Rb, Cs, Cu, Ag and combinations thereof, MB is selected from a group of divalent metals consisting of Mg, Ca, Sr, Ba, Zn, Mn, Eu, Yb, Ni, Fe, Co and combinations thereof, TA is selected from a group of monovalent metals consisting of Li, Na, Cu, Ag and combinations thereof, TB is selected from a group of divalent metals consisting of Mg, Zn, Mn, Eu, Yb, Ni and combinations thereof, TC is selected from a group of trivalent metals consisting of B, Al, Ga, In, Y, Fe, Cr, Sc, rare earths and combinations thereof, TD is selected from a group of tetravalent metals consisting of Si, Ge, Sn, Mn, Ti, Zr, Hf, Ce and combinations thereof, XB is selected from a group of elements consisting of O, S and combinations thereof, XC═N E=Eu, Ce, Yb and/or Mn, a+b=1 e+f+g+h=4 l+m=4 a+2b+e+2f+3g+4h−2l−3m=0 and 0≤m<1.75. 2. The phosphor as claimed in claim 1 , wherein MA is selected from a group of monovalent metals consisting of Li, Na, K, Rb, Cs and combinations thereof, MB is selected from a group of divalent metals consisting of Mg, Ca, Sr, Ba, Eu and combinations thereof, TC is selected from a group of trivalent metals consisting of B, Al, Ga, In and combinations thereof, TD is selected from a group of tetravalent metals consisting of Si, Ge, Sn, Mn, Ti and combinations thereof and XB═O. 3. The phosphor as claimed in claim 1 , wherein f=g=0. 4. The phosphor as claimed in claim 1 , which has a crystal structure in which TA, TB, TC and/or TD are surrounded by XB, and/or XC and the resultant structural units are linked via common corners and edges to form a three-dimensional spatial network having cavities or channels and MA and/or MB are/is arranged in the cavities or channels. 5. The phosphor as claimed in claim 1 , which has the general molecular formula (MA) a (MB) b (TA) c (TD) h (XB) l (XC) m :E, wherein MA is selected from a group of monovalent metals consisting of Li, Na, K, Rb, Cs, Cu, Ag and combinations thereof, MB is selected from a group of divalent metals consisting of Mg, Ca, Sr, Ba, Zn, Mn, Eu, Yb, Ni, Fe, Co and combinations thereof, TA is selected from a group of monovalent metals consisting of Li, Na, Cu, Ag and combinations thereof, TD is selected from a group of tetravalent metals consisting of Si, Ge, Sn, Mn, Ti, Zr, Hf, Ce and combinations thereof, XB is selected from a group of elements consisting of O, S and combinations thereof, E=Eu, Ce, Yb and/or Mn, XC═N, a+b=1, e+h=4, l+m=4, a+2b+e+4h−2l−3m=0 and m<1.75 or 1>2.25. 6. The phosphor as claimed in claim 5 , wherein MA is selected from a group of monovalent metals consisting of Li, Na, K, Rb, Cs and combinations thereof, MB is selected from a group of divalent metals consisting of Mn, Eu, Yb and combinations thereof, TA is selected from a group of monovalent metals consisting of Li, Na and combinations thereof, TD is selected from a group of tetravalent metals consisting of Si, Ge, Sn, Mn, Ti, and combinations thereof, and XB═O. 7. The phosphor as claimed in claim 1 , which has the general molecular formula (MA) a (MB) b (TA) c (TC) g (TD) h (XB) l (XC) m :E, wherein—MA is selected from a group of monovalent metals consisting of Li, Na, K, Rb, Cs, Cu, Ag and combinations thereof, MB is selected from a group of divalent metals consisting of Mg, Ca, Sr, Ba, Eu and combinations thereof, TA is selected from a group of monovalent metals consisting of Li, Na, Cu, Ag and combinations thereof, TC is selected from a group of trivalent metals consisting of B, Al, Ga and combinations thereof, TD is selected from a group of tetravalent metals consisting of Si, Ge and combinations thereof, E=Eu, Ce, Yb and/or Mn XB═O, XC═N a+b=1 e+g+h=4 l+m=4 a+2b+e+3g+4h−2l−3m=0 and m<1.75 or 1>2.25. 8. The phosphor as claimed in claim 7 , wherein MA is selected from a group of monovalent metals consisting of Li, Na, K and combinations thereof, MB is selected from a group of divalent metals consisting of Mg, Ca, Sr, Ba, Eu and combinations thereof, E=Eu, Ce, Yb and/or Mn TA=Li, TC=Al, TD=Si, XB═0, and XC═N. 9. A method for producing a phosphor as claimed in claim 1 comprising the following method steps: A) mixing starting materials of the phosphor, B) heating the mixture obtained under A) to a temperature T 1 of between 500 and 1400° C., C) annealing the mixture at a temperature T 1 of 500 to 1400° C. for 0.5 minute to ten hours. 10. The phosphor as claimed in claim 1 , wherein the phosphor emits a secondary radiation in the blue to blue-green spectral range of the electromagnetic spectrum. 11. The phosphor as claimed in claim 1 , wherein the phosphor emits a secondary radiation in the blue to green-yellow spectral range of the electromagnetic spectrum. 12. The phosphor as claimed in claim 1 , wherein MB is selected from a group of divalent metals comprising Mn, Eu, Yb, and combinations thereof. 13. The phosphor as claimed in claim 1 , wherein MB is Eu, Eu combined with Mn, or Eu combined with Yb.