Luminescence Properties and Energy Transfer of Eu2+ Doped Ca8Mg ( SiO4 ) 4Cl2 Phosphors

Abstract

The synthesis and luminescence characteristics of Eu²⁺ activated calcium magnesium chlorosilicate, , have been reported and analyzed. The emission spectrum of Eu²⁺ is composed of two separate bands with peaks at 507 and 428 nm, which result from the Eu²⁺ centers in different crystallographic sites. At room temperature, the excitation spectrum of the very strong 507 nm emission shows not only the broad 4f⁷‐4f⁶5d excitation bands, but also the fine structure resulting from the splitting of 4f⁶ configuration in the 4f⁶5d excited state. This structure is explained by the high covalency degree of the cation—anion bonds in this system. Efficient energy transfer between the two inequivalent Eu²⁺ centers has been evaluated quantitatively.