A solid-solution modulation strategy in trivalent bismuth-doped gallate phosphors for single substrate tunable emission.

The synthesis conditions of most phosphors doped with lanthanide ions with d-f transition require a reducing atmosphere. The doping Bi ions selected in this study perfectly avoid this requirement, and they are environmentally friendly and safe. Nevertheless, the spectral tuning of Bi is a great challenge that limits its application. Herein, by regulating the value of in the new solid solution SrLaGaOF, the luminescence of Bi is well promoted. Through an excitation-driven strategy, the emission peak position of Bi is redshifted, and the luminescence of trivalent bismuth is successfully adjusted, which can also be applied to anti-blue lighting. In addition, we constructed a Bi-Eu dual luminescence system, and, regardless of changes in the Bi/Eu concentration or excitation wavelength, a single matrix white light phosphor was realized. Through calculations, the activation energy of the phosphor doped with 2.5%Eu was found to be 0.257 eV, which is higher than the activation energy of some common compounds. This indicates that the phosphor has good application prospects in the field of solid-state lighting. It is worth noting that based on the different thermal response behaviors of Bi and Eu, when the Eu content is fixed at 1%, the maximum relative sensitivity of the optical thermometer based on its fluorescence intensity ratio is about 1.46% K at 383 K, which is higher than that of Bi and Eu co-doped phosphors previously reported. We also obtained a high absolute sensitivity of 0.00139 K at 403 K. Therefore, we also studied the thermal sensitivity of Bi and Er co-doped solid solutions. The results show that this solid-solution phosphor has far-reaching application prospects in the temperature sensing field.