Sintering temperature effect of divalent europium ion doped tetra-calcium phosphate phosphors for latent fingerprint detection

Abstract Ca 4 (PO 4 ) 2 O:Eu 2+ (CPO:Eu 2+ ) phosphors were successfully synthesized by high-energy ball milling. In order to study the effect of sintering temperature, the phosphors were synthesized at various sintering temperatures. The crystal structure of CPO:Eu 2+ was determined to be monoclinic P 2 1 . Owing to the f–d transitions of the Eu 2+ ions in the CPO:Eu 2+ phosphors, the PL spectra of the phosphors showed an intense red emission centered at 635 nm with 418 nm excitation. Using high-energy ball milling, a more intense emission (compared to that reported from other research) can be visually observed with human eyes in the form of orange-red light, which is helpful in latent fingerprint detection. In addition, high-temperature sintering results in an increase of the PL intensity owing to the larger particle size and lower levels of impurities in the CPO:Eu 2+ phosphors. The latent fingerprint image obtained by using CPO:Eu 2+ phosphors reveals a high contrast for various substrate materials, because the phosphors exhibit strong red emission and adhere to the residue of the fingerprint after flowing. On the basis of these results, red-emitting CPO:Eu 2+ phosphors can be used for the detection of latent fingerprints in solving criminal cases.