Abstract: Provided herein are phosphors of the general molecular formula: (A2-2xEux)(Mg1-yCay)PO4F wherein the variables are as defined herein. Methods of producing the phosphors are also provided. In some aspects, the present disclosure provides light-emitting devices comprising these phosphors.

Abstract: Provided herein are phosphors of the general molecular formula: A3-2xEuxMP3O9N, wherein the variables are as defined herein. Methods of producing the phosphors are also provided. In some aspects, the present disclosure provides light-emitting devices comprising these phosphors.

Abstract: Provided herein are phosphors of the general molecular formula: A3-2xEuxMP3O9N, wherein the variables are as defined herein. Methods of producing the phosphors are also provided. In some aspects, the present disclosure provides light-emitting devices comprising these phosphors.

Abstract: Provided herein are phosphors of the formula: (A1-xEux)(Ba1-ySry)B9O15, wherein the variables are as defined herein. Methods of producing the phosphors are also provided. In some aspects, the present disclosure provides light-emitting devices comprising these phosphors.

Abstract: Provided herein are phosphors of the general molecular formula: (A2-2xEux(Mg1-yCay)PO4F wherein the variables are as defined herein. Methods of producing the phosphors are also provided. In some aspects, the present disclosure provides light-emitting devices comprising these phosphors.

Abstract: Disclosed are methods of detecting one or more analytes in a sample by: (1) associating the sample with a surface that includes an analyte binding agent to result in the immobilization of the analytes on the surface; (2) contacting the analyte with a composition that includes at least one phosphor compound with an affinity for the analyte; (3) formation of immobilized analyte binding agent-analyte-phosphor complexes on the surface; (4) separating unbound phosphor compounds from the immobilized complexes; (5) detecting a presence or absence of a luminescence signal from the immobilized complexes; and (6) correlating the luminescence signal to the presence or absence of the analyte in the sample. The phosphor compound may include (Sr1-?Ba?)2-j-kMgSi2O7:EujDyk, (Sr1-?Ba?)2-xMgSi2O7:Eu2+Dy3+, (Sr1-?Ba?)2MgSi2O7:Eu2+Dy3+, (Sr1-?Ba?)2-xMgSi2O7:Eu2+, and combinations thereof.

Abstract: Disclosed are methods of detecting one or more analytes in a sample by: (1) associating the sample with a surface that includes an analyte binding agent to result in the immobilization of the analytes on the surface; (2) contacting the analyte with a composition that includes at least one phosphor compound with an affinity for the analyte; (3) formation of immobilized analyte binding agent-analyte-phosphor complexes on the surface; (4) separating unbound phosphor compounds from the immobilized complexes; (5) detecting a presence or absence of a luminescence signal from the immobilized complexes; and (6) correlating the luminescence signal to the presence or absence of the analyte in the sample. The phosphor compound may include (Sr1-?Ba?)2-j-kMgSi2O7:EujDyk, (Sr1-?Ba?)2-xMgSi2O7:Eu2+Dy3+, (Sr1-?Ba?)2MgSi2O7:Eu2+Dy3+, (Sr1-?Ba?)2-xMgSi2O7:Eu2+, and combinations thereof.