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Advancements in Phosphor Research: From Methodologies to Emerging Discoveries
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Lijia Liu

Lijia Liu

Western University

<p>Dr. Lijia Liu earned her PhD in chemistry from Western University in 2012. She is trained as a chemist and a synchrotron spectroscopist. Following her doctoral studies, she completed a postdoctoral fellowship at the University of Saskatchewan, where she developed X-ray spectroscopy techniques for in situ material analysis. Dr. Liu then joined the Institute of Functional Nano and Soft Materials (FUNSOM) at Soochow University as an associate professor, focusing on developing perovskite-based optoelectronic devices. In 2020, she began her independent career as an assistant professor at Western University. Her research interests include the synthesis of persistent luminescent nanomaterials for applications in optical-based bioimaging, sensing, and anticounterfeiting, as well as conducting spectroscopic studies to understand the mechanisms behind persistent luminescence phenomena.</p>

Collection Overview

Phosphors are integral to various applications ranging from solid-state lighting and display technologies to advanced biomedical imaging and sensing. The continued evolution of phosphor materials and technologies is pivotal in addressing the increasing demand for more efficient, durable, and multifunctional systems.

Despite significant progress in this area, several challenges remain, including optimizing synthesis processes, enhancing material properties, improving stability, and expanding the scope of applications. Additionally, developing sustainable and environmentally friendly phosphors is a growing concern.

This collection aims to provide a comprehensive platform for the latest advances in phosphor research. It encompasses a wide range of topics, including various synthesis strategies, advanced characterization techniques, performance optimization, and innovative applications across diverse fields. Researchers are invited to contribute method-focused and original research articles that address emerging challenges, propose new approaches, or present advanced applications.

By serving as a centralized resource, this collection will facilitate the dissemination of cutting-edge methodologies and innovative research, foster collaborations, and accelerate advancements in phosphor technologies, ultimately contributing to the development of more sustainable and efficient systems.

Articles

Phase-Dependent Control of Trap Depth and Persistent Luminescence in Strontium Aluminate Phosphors
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Phase-Dependent Control of Trap Depth and Persistent Luminescence in Strontium Aluminate Phosphors

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2025

Abstracts

Color-tunable persistent luminescence in strontium aluminates for dynamic anticounterfeiting technology

GUANYU CAI*1

1PSL university