Advanced Material Properties: Synthesis and Characterization of doped Lithium Aluminium Silicates for Emerging Applications

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Bol This book presents a comprehensive study on the synthesis, characterization, and multifunctional applications of rare-earth-doped silicate-based nanomaterials, with a particular focus on lithium aluminum silicate (LiAlSiO¿) systems synthesized via the solution combustion method. It explores the unique structural, optical, and electrical properties imparted by dopants like Europium, Samarium, and Praseodymium, highlighting their potential in photocatalysis, energy storage, radiation sensing, and advanced electronics. Detailed analyses using techniques such as XRD, SEM, TEM, FTIR, DRS, and impedance spectroscopy reveal insights into crystallinity, morphology, band gap behavior, and dielectric performance. The materials demonstrate high photocatalytic efficiency, stable radiation response, and excellent dielectric properties, making them suitable for applications in environmental remediation, space technology, and next-generation electronic devices. The study concludes with a summary of key findings and future research directions in the field of functional nanomaterials.

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This book presents a comprehensive study on the synthesis, characterization, and multifunctional applications of rare-earth-doped silicate-based nanomaterials, with a particular focus on lithium aluminum silicate (LiAlSiO¿) systems synthesized via the solution combustion method. It explores the unique structural, optical, and electrical properties imparted by dopants like Europium, Samarium, and Praseodymium, highlighting their potential in photocatalysis, energy storage, radiation sensing, and advanced electronics. Detailed analyses using techniques such as XRD, SEM, TEM, FTIR, DRS, and impedance spectroscopy reveal insights into crystallinity, morphology, band gap behavior, and dielectric performance. The materials demonstrate high photocatalytic efficiency, stable radiation response, and excellent dielectric properties, making them suitable for applications in environmental remediation, space technology, and next-generation electronic devices. The study concludes with a summary of key findings and future research directions in the field of functional nanomaterials.

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Pagina's: 164, Paperback, LAP LAMBERT Academic Publishing


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Merk LAP LAMBERT Academic Publishing
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  • 9786209640308
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