Synthesis, Processing and Application of Micro and Nanostructured Materials

doi:10.3390/books978-3-03928-968-4

Reprint

Synthesis, Processing and Application of Micro and Nanostructured Materials

Edited by

July 2020

294 pages

ISBN978-3-03928-967-7 (Hardback)
ISBN978-3-03928-968-4 (PDF)

https://doi.org/10.3390/books978-3-03928-968-4

Free download (PDF)

This book is a reprint of the Special Issue Synthesis, Processing and Application of Micro and Nanostructured Materials that was published in

Chemistry & Materials Science

Engineering

Summary

The book is focused on nanostructured materials, which have been well-studied in various fields from life to materials sciences. Nanostructured science has the potential to help make revolutionary discoveries based on modifying the properties of these materials compared with micro-structured materials. Nanostructured materials are the key to discovering new products based on new technologies. This book is focused on presenting new state-of-the-art methods for the synthesis and processing of nanostructured materials. These materials can be used in both in life and materials science with applications from biomedical devices, drug delivery systems, medical imaging with multiferoic materials, high-energy batteries, capacitors, superconductors, and aerospace components.

Format

Hardback

License

Keywords

15-nm silver nanowire; Pressure-induced polyol method; stretchable transparent electrode 2-D films; Low-haze; Embedded electrode film; europium doped hydroxylapatite; photoluminescence; MTT assay; oxidative stress assessment; fluorescent microscopy; magnetic nanoparticles; polyacrylamide; functionalization; nanocomposite; hydrogel; bismuth ferrite; sol-gel process; magnetic properties; photoluminescence properties; nano-modified high-performance coating; dispersion methods; fullerene-C60; corrosion mitigation; nanocomposite; gas and oil pipelines; focused ion beam; nanospikes; martensite; stainless steel; gallium; bombardment; irradiation effects; sharp needle; incident angle; Green synthesis; Silver nanoparticles; Olea Europaea; Leccino; Carolea; cytotoxicity; genotoxicity; antibacterial activity; sol-gel; Ce³⁺-doped BaTiO₃; dielectric permittivity; ferroelectric–paraelectric phase transition; spark plasma sintering; nucleation; growth; electrochemical deposition; silicon-carbon films; Bi₂NiMnO₆; thin films; diode effect; oxygen defect; conduction mechanism; magnetite nanoparticles; Fe₃O₄; functionalization; surface modification; conjugation; nanomedicine; biocompatibility; clinical translation; catalytic durability; polydopamine (PDA); strong adhesion; supported catalyst; H₂O₂ decomposition; gallium nitride; epitaxial thin films; dislocations; positron diffusion length; thermal protection systems; ultrahigh temperature applications; EB-PVD; cobalt ferrite; nanobrush; pulsed laser epitaxy; vertically aligned; single crystalline; magnetization; tailored anisotropy; coal combustion; fly ash; mesoporous silica; recycling; lithium-doped nickel oxide; non-vacuum deposition; figure of merit; heterojunction diode