Enhanced photoluminescence of hollow CaWO4 microspheres: the fast fabrication, structural manipulation, and exploration of the growth mechanism?
Materials Chemistry Frontiers Pub Date: 2022-02-19 DOI: 10.1039/D1QM01639C
Abstract
Calcium tungstate (CaWO4) has been extensively studied for optical applications due to the high luminous efficiency and photoluminescence (PL) emissions generated from its scheelite-type tetragonal architecture. Nevertheless, how to fabricate CaWO4 materials with a controllable morphology using a rapid dynamic strategy is still an intractable challenge. In this work, hollow CaWO4 microspheres of different sizes with homogeneous diameters and high porosity were prepared via a high-efficiency microwave irradiation method. Through X-ray diffraction analyses, it was observed that the as-prepared products displayed a highly pure phase of CaWO4. In addition, the overall topology and component nanoparticle dimensions of the microstructures were identified using field-emission scanning electron microscopy, transmission electron microscopy, and high-resolution transmission electron microscopy images. These as-obtained hollow CaWO4 microspheres, assembled by uniform nanospheres with a high crystallinity, demonstrated excellent luminescence properties, as determined through emission spectra with a maximum wide band of 390–420 nm, which is validated by PL measurements. This is assigned to the transfer of 1T2 → 1A1 that resulted from the charge-transfer of the tetrahedral [WO4] groups of CaWO4. Furthermore, the formation mechanism of hollow CaWO4 microspheres is summarized into “self-assembly–dissolution-recrystallization–Ostwald-ripening” by monitoring the changes in the shapes and microstructures under continuous dwell time.
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Journal Name:Materials Chemistry Frontiers
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CAS no.: 89640-58-4