Force-light-heat stimulation-induced multicolor chromism and multifunctional applications of europium tungstate phosphor
Yingzhu Zi, Anjun Huang, Heping Zhao, Xue Bai, Yue Liu, Yangke Cun, Zhiguo Song, Jianbei Qiu, Yang Shen, Ji Zhou, Zhengwen Yang
Abstract
Stimulus-responsive chromogenic luminescent materials are promising for security and optical storage, yet force-induced color change in inorganic materials remains rarely reported. Here we report a europium tungstate that exhibits mechanochromism, driven by pressure-induced tungsten valence transformation and color center formation. The sample color shifts from orange to black with increasing pressure, accompanied by a linear variation in reflectance. A luminescence modulation rate of 100% for Eu3+ is achieved due to the strong reabsorption of the black state. Negative photochromism, switching from black/orange to white, occurs under laser irradiation or heating via the reversible phase transition between EuWO4 and Eu2W2O9. The luminescence modulation is attributed to the synergistic effects of body color reabsorption and nonradiative transitions. Our work demonstrates a robust inorganic material responsive to force, light, and heat, offering versatile functionality for pressure sensing, anti-counterfeiting, and optical storage, and provides a design strategy for multicolor chromogenic materials. Stimulus-responsive materials are interesting for security and data storage. Here the authors report a europium tungstate with reversible multicolor and luminescence modulation under force, light, and heat for sensing and memory applications.