Enhancing the temperature sensitivity of Cr3+ emissions by modification of the host's composition for fluorescence thermometry applications

The fluorescence intensity ratio (FIR) technique is widely adopted in thermometric phosphor materials, but the improvement of relative sensitivity is normally limited by the fixed energy gap between two thermally-coupled emitting levels of luminescent ions. Herein, LnAl(3)(BO3)(4):Cr3+ (LnAB:Cr3+, Ln = Gd, Y, Lu) phosphors are found to simultaneously show T-4(2) and E-2 emissions of Cr3+, and their FIR is sensitive to temperature and suitable for fluorescence thermometric applications. Moreover, the energy gap between the T-4(2) and E-2 levels of Cr3+ is tunable and the relative sensitivity can be greatly improved by modifying the host's composition. Structural analysis and spectroscopic data confirm that the enhanced crystal-field of the Cr3+/Al3+ sites caused by incorporating smaller Ln(3+) ions into the host contributes to the improvement of relative sensitivity. This work would provide new insights into the development of novel FIR thermometric materials with high-sensitivity.

Automated summary

The LnAl(3)(BO3)(4):Cr3+ phosphors exhibit temperature sensitivity and improved relative sensitivity by tuning the energy gap between emitting levels and modifying the host's composition. This study provides insights into the development of novel FIR thermometric materials with high-sensitivity.