Optimizing the Mechanoluminescent Properties of CaZnOS:Tb via Microwave-Assisted Synthesis: A Comparative Study with Conventional Thermal Methods

Ugbo, Franca C.; Porcu, Stefania; Corpino, Riccardo; Pinna, Andrea; Carbonaro, Carlo Maria; Chiriu, Daniele; Smet, Philippe; Ricci, Pier Carlo

doi:10.3390/ma16093511

Materials

2023

DOI: 10.3390/ma16093511

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Optimizing the Mechanoluminescent Properties of CaZnOS:Tb via Microwave-Assisted Synthesis: A Comparative Study with Conventional Thermal Methods

Franca C. Ugbo

Stefania Porcu

Riccardo Corpino

et al.

Abstract: Recent developments in lighting and display technologies have led to an increased focus on materials and phosphors with high efficiency, chemical stability, and eco-friendliness. Mechanoluminescence (ML) is a promising technology for new lighting devices, specifically in pressure sensors and displays. CaZnOS has been identified as an efficient ML material, with potential applications as a stress sensor. This study focuses on optimizing the mechanoluminescent properties of CaZnOS:Tb through microwave-assisted s… Show more

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Cited by 4 publications

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Exploring Mechanoluminescence of Zinc Alkaline Earth Metal Oxysulfides from Fundamentals to Advanced Applications

Li,

Cai,

Chang

et al. 2024

Adv Funct Materials

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Mechanoluminescent (ML) materials convert mechanical stimuli into light emission, enabling applications in stress distribution visualization, structural health monitoring, biomechanical imaging, and sono‐optogenetics. Achieving efficient and full‐spectrum ML materials represents a long‐standing challenge. Zinc alkaline earth metal oxysulfides, namely CaZnOS, SrZnOS, BaZnOS, and SrZn2S2O, have emerged as prominent contenders in this field due to their exceptional ML properties. These materials feature low‐stress thresholds for emission activation, high ML intensity without the need for irradiation charging, and tunable spectra ranging from visible to near‐infrared, thus advancing ML research and broadening application possibilities. Here, a comprehensive review of the significant advancements made in ML research on zinc alkaline earth metal oxysulfides over the past decade, encompassing synthesis, characterization, mechanisms, and promising applications is presented. Special attention is focused on addressing conflicting reports on ML generation conditions, recent progress in accurately characterizing ML performance, and understanding mechanical‐to‐optical conversion processes. Future directions in fundamental ML research and the challenges in translating these advancements into practical applications are also discussed.

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Exploring Mechanoluminescence of Zinc Alkaline Earth Metal Oxysulfides from Fundamentals to Advanced Applications

Li,

Cai,

Chang

et al. 2024

Adv Funct Materials

View full text Add to dashboard Cite

show abstract

A Review of Mechanoluminescence Based on Quaternary Oxysulfides: Research Progress, Mechanism and Applications

Jiang,

Du,

Zhang

et al. 2024

J Inorg Organomet Polym

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Efficient synthesis of quaternary piezo-photonic materials for pressure visualization and E-signature anti-counterfeiting

Du,

Wang,

et al. 2024

Chemical Engineering Journal

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Optimizing the Mechanoluminescent Properties of CaZnOS:Tb via Microwave-Assisted Synthesis: A Comparative Study with Conventional Thermal Methods

Cited by 4 publications

References 37 publications

Exploring Mechanoluminescence of Zinc Alkaline Earth Metal Oxysulfides from Fundamentals to Advanced Applications

Exploring Mechanoluminescence of Zinc Alkaline Earth Metal Oxysulfides from Fundamentals to Advanced Applications

A Review of Mechanoluminescence Based on Quaternary Oxysulfides: Research Progress, Mechanism and Applications

Efficient synthesis of quaternary piezo-photonic materials for pressure visualization and E-signature anti-counterfeiting

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