This book provides a comprehensive overview of the latest advancements in unconventional nanoparticle synthesis and their applications, including a foundational understanding of unconventional nanoparticle covering synthesis, characterization, and green manufacturing technologies. Further, it covers laser ablation-mediated synthesis of carbon-coated TiO2 nanoparticles, supercritical CO2-assisted reaction crystallization, continuous hydrothermal nanoparticle synthesis, and safety and environmental implications of unconventional nanoparticle synthesis.
Presents insights into both fundamental and applied aspects of unconventional nanoparticle production methods. Discusses progress in unconventional nanoparticle synthesis, particularly in-situ supercritical fluid synthesis with additives. Provide insights into cutting-edge advancements in techniques to produce nanoparticles with distinct properties. Includes an in-depth analysis of green technology to produce nanoparticles. Reviews practical applications of unconventional nanoparticles, highlighting their role in pioneering energy storage solutions.
This book is aimed at graduate students and researchers in materials science and nanomaterials.
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