Phosphor and conversion LED

The invention claimed is: 1. A phosphor having the empirical formula (AB) 1+2y Al 11−x−y (AC) x Li y O 17 :E; wherein: 0<x+y<11; x>0; AC=B, Ga, In, or combinations thereof; AB=Na, K, Rb, Cs, or combinations thereof; and E=Eu, Ce, Yb, Mn, or combinations thereof. 2. A phosphor as claimed in claim 1 , wherein 0<x+y<5; and Y>0. 3. A phosphor as claimed in claim 1 , wherein 0<x+y<5; 0<x≤3; and 0<y≤2. 4. A phosphor as claimed in claim 1 , having the empirical formula Na 1+2y Al 11−x−y (AC) x Li y O 17 :E where 0<x+y<5; 0<x≤3; and 0<y≤2. 5. A phosphor as claimed in claim 4 , wherein 0≤x+y≤3; 0<x≤2; and 0<y≤1. 6. A phosphor as claimed in claim 1 , wherein the empirical formula is Na 1+2y Al 11−x−y (Ga 1−z A z ) x Li y O 17 :E; wherein: 0≤z<1; 0<x+y<5; 0<x≤3; 0<y≤2; A=B and/or In; and E=Eu, Ce, Yb, and/or Mn. 7. A phosphor as claimed in claim 1 , wherein the empirical formula is Na 1+2y Al 11−x−y Ga x Li y O 17 :E; wherein: 0<x+y<5; 0<x≤3; 0<y≤2; and E=Eu, Ce, Yb, Mn, or combinations thereof. 8. A phosphor as claimed in claim 7 , wherein: 0≤x+y≤3; 0<x≤2; and 0<y≤1. 9. A phosphor as claimed in claim 1 , which wherein the phosphor crystallizes in a trigonal crystal system. 10. A phosphor as claimed in claim 1 , wherein the phosphor crystallizes in a R 3 m space group. 11. A process for preparing a phosphor as claimed in claim 1 , wherein the process comprises: blending reactants of the phosphor to form a blend; heating the blend to a temperature T1 ranging from 1200 to 1800° C.; calcining the blend at a temperature T1 ranging from 1200 to 1800° C. for an amount of time ranging from 5 hours to 10 hours. 12. A conversion LED component comprising: a primary radiation source that emits electromagnetic primary radiation in the operation of the conversion LED component; and a conversion element comprising a phosphor as claimed in claim 1 ; wherein the conversion element is arranged in the beam path of the electromagnetic primary radiation; and wherein the phosphor is configured to convert the electromagnetic primary radiation at least partly to the electromagnetic secondary radiation in the blue to green region of the electromagnetic spectrum. 13. The conversion LED component as claimed in claim 12 , wherein the conversion LED component emits white total radiation in operation; and wherein the conversion element comprises a white phosphor configured to convert the electromagnetic primary radiation and/or the electromagnetic secondary radiation in the blue to green region at least partly to electromagnetic secondary radiation in the red region of the electromagnetic spectrum, and wherein the white total radiation comprises the primary and secondary radiations. 14. The conversion LED component as claimed in claim 12 , wherein the conversion LED component in operation emits blue to green total radiation, wherein the blue to green total radiation corresponds to the secondary radiation.