Journal
OPTICAL MATERIALS
Volume 135, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.optmat.2022.113326
Keywords
CaSiO3; Wollastonites; Upconversion; Phosphors; Quantum yield
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This report demonstrates the research progress on photon upconversion in CaSiO3 wollastonite through Yb and Tm doping, resulting in ultra-violet, blue, and near-infrared emissions.
Wollastonite is a naturally occurring mineral with a chemical formula of CaSiO3. Owing to outstanding me-chanical, chemical, and thermal stabilities, wollastonites have become one of the most versatile industry min-erals for applications in construction materials, cement, plastics, paints and coatings, friction, automobile brakes, ceramic and metallurgical applications to name a few. Despite technological importance, research on functional properties such as photon upconversion in wollastonites is still lacking. In this report, an initiative has been taken to demonstrate ultra-violet, blue, and near-infrared photon upconversion in CaSiO3 wollastonite via Yb and Tm doping. The wollastonite ceramics are synthesized via microwave hydrothermal technique followed up by heat-treatment in air. beta-wollastonite (2M) phase in the synthesized samples has been confirmed by X-ray diffraction and a successful doping of Yb3+ and Tm3+ ions in the CaSiO3 lattice has been confirmed by X-ray photoelectron spectroscopy. The most intense phonon band has been observed at 872 cm-1. Upon 980 nm excitation, ultra-violet, intense blue, and near-infrared upconversion emissions as well as downshifting infrared emissions are observed from Tm3+ ions as a result of sensitization by Yb3+. The temporal evolution of the emitting states is studied to understand the emission mechanism. An absolute upconversion quantum yield of the 20Yb/ 0.5Tm-CaSiO3 sample in the 400-850 nm range is 0.79%.
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