Color-Tunable CsCdCl 3 Perovskite for Low-Temperature Anticounterfeiting and Information Storage Applications

Low-temperature anticounterfeiting technologies play a crucial role in ensuring the authenticity and integrity of temperature-sensitive products such as vaccines, pharmaceuticals, and food items. In this work, a low-temperature anticounterfeiting route based on the differentiated photoluminescence (PL), PersL, and thermally stimulated luminescence (TSL) behaviors of metal halide perovskite, pure CsCdCl , and CsCdCl :10% Te is proposed. The CsCdCl host exhibits pronounced color shifts, encompassing PL, PersL, and TSL behaviors, ranging from blue to yellow and orange as the temperature rises from 100 K to room temperature. This color change is attributed to a change in the luminous center (from the D octahedron to the C octahedron). Conversely, the addition of Te as the luminescence center inhibits the matrix emission, maintains the characteristic orange emission of Te , and regulates the trap distribution of the matrix at low temperature and the TL luminescence intensity. This work highlights the significant promise of CsCdCl :10% Te and CsCdCl phosphors as innovative low-temperature anticounterfeiting technologies, especially for cold-chain vaccine safety monitoring.