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Persistent Luminescence in Strontium Aluminate: A Roadmap to a Brighter Future

David Van der Heggen, Jonas Joos, Ang Feng, Verena Fritz, Teresa Delgado, Nando Gartmann, B. Walfort, Daniel Rytz, Hans Hagemann, Dirk Poelman, Bruno Viana, Philippe F. Smet

2022Advanced Functional Materials159 citationsDOIOpen Access PDF

Abstract

Abstract Glow‐in‐the‐dark materials have been around for a long time. While formerly materials had to be mixed with radioactive elements to achieve a sufficiently long and bright afterglow, these have now been replaced by much safer alternatives. Notably strontium aluminate, SrAl 2 O 4 , doped with europium and dysprosium, has been discovered over two decades ago and since then the phosphor has transcended its popular use in watch dials, safety signage, or toys with more niche applications such as stress sensing, photocatalysis, medical imaging, or flicker‐free light‐emitting diodes. A lot of research efforts are focused on further improving the storage capacity of SrAl 2 O 4 :Eu 2+ ,Dy 3+ , including in nanosized particles, and on finding the underlying physical mechanism to fully explain the afterglow in this material and related compounds. Here an overview of the most important results from the research on SrAl 2 O 4 :Eu 2+ ,Dy 3+ is presented and different models and the underlying physics are discussed to explain the trapping mechanism at play in these materials.

Topics & Concepts

Persistent luminescenceAfterglowMechanoluminescencePhosphorMaterials scienceDysprosiumThermoluminescenceEuropiumNanotechnologyLuminescenceAluminateStrontiumEngineering physicsOptoelectronicsMetallurgyInorganic chemistryCementPhysicsNuclear physicsAstronomyGamma-ray burstChemistryLuminescence Properties of Advanced MaterialsRadiation Detection and Scintillator TechnologiesPerovskite Materials and Applications
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