Advanced Luminescent Materials and Devices

doi:10.3390/books978-3-7258-1535-7

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Advanced Luminescent Materials and Devices

Edited by

July 2024

270 pages

ISBN978-3-7258-1536-4 (Hardback)
ISBN978-3-7258-1535-7 (PDF)

https://doi.org/10.3390/books978-3-7258-1535-7 (registering)

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This book is a reprint of the Special Issue Advanced Luminescent Materials and Devices that was published in

Chemistry & Materials Science

Engineering

Physical Sciences

Summary

This text presents recent developments in a wide range of applications of luminescent materials. It compiles contributions from a number of leading scientists in the field, and should be an inspiration for both established and new researchers in this exciting area of research. Thanks to developments in materials research, new applications, requiring specific phosphor properties, have emerged. Wavelength ranges have expanded towards UV and near-IR emission; highly performant persistent phosphors have been developed for safety illumination and bio-imaging; phosphors have been proposed for anti-counterfeiting, energy storage, photocatalysis, thermometry, scintillators and dosimetry; and new synthesis and characterization techniques for luminescent materials have been developed.

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Hardback

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Keywords

Y₂O₃:Eu; phosphor; photoluminescence; electroluminescence; atomic layer deposition; luminescence; Dy-doped crystals; optical temperature sensors; TL spectroscopy; ordinary chondrite; Chelyabinsk LL5; Tsarev L5; activation energy; interparticle energy transfer; erbium chloride silicate; sensitized emission; imidazole; carbazole; luminescence; emitter; host; organic light-emitting diode; upconversion; traps; thermal stability; optically stimulated luminescence; quartz; persistent luminescence; UV-emission; optical properties; phototherapy; manganese; YAl₃(BO₃)₄:Mn crystal; XANES spectroscopy; high-resolution optical spectroscopy; photoluminescence; aluminosilicate glass; glass structure; hypersensitivity; rare earth site symmetry; samarium; molecular dynamics simulations; luminescence; thermoluminescence; stimulated luminescence; kinetic parameters; superposition principle; competition between levels; computerized glow curve deconvolution; radiation synthesis; ceramics; luminescence; oxides; yttrium–aluminum garnet; spinel; photoluminescence; persistent luminescence; nanoparticles; anti-counterfeiting; NIR; BeO; TL; TA-OSL; supralinearity; thermally assisted processes; nanocomposites; photoluminescence; photocatalysis; MgB₄O₇; OSL; luminescence dosimetry; phosphors; synthesis; YAG:Ce ceramics; structure; high-power electron flux; energy loss; luminescence; scintillation material; luminescence; EPR; lattice defect; radioluminescence; luminescence; near infrared; spectroscopy; neodymium; gadolinium compounds; bioimaging; luminescence decay