The development of advanced X-ray-responsive detection materials is essential for ensuring radiation safety and enabling high-precision imaging. Here, we report a Bi2SiO5:Eu3+ phosphor that exhibits a synergistic multimodal optical response to X-rays, combining radioluminescence, reversible radiochromism, and tunable luminescence modulation within a single material. Upon irradiation, the phosphor undergoes a distinct and reversible color change from white to brown, which correlates linearly with the X-ray dose through a measurable decrease in reflectance. Simultaneously, both its photoluminescence and radioluminescence intensities vary linearly with radiation dose, enabling quantitative optical dosimetry. Spectroscopic and structural analyses reveal that the reversible behavior arises from oxygen-vacancy-mediated color centers, which form without altering the host lattice. Furthermore, a flexible composite film fabricated from Bi2SiO5:Eu3+ enables multimodal high-resolution (10.3 lp mm-1) X-ray imaging and direct visual dose readout. This work introduces a promising class of lead-free, multifunctional phosphors and offers mechanistic insight for next-generation intelligent X-ray detection and visualization technologies.
Bai et al. (Fri,) studied this question.