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Sol-Gel Chemistry Applied to Materials Science

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ISBN: 9783039213535 9783039213542 Year: Pages: 216 DOI: 10.3390/books978-3-03921-354-2 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Science (General) --- Chemistry (General)
Added to DOAB on : 2019-12-09 11:49:15
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Abstract

Sol–gel technology is a contemporary advancement in science that requires taking a multidisciplinary approach with regard to its various applications. This book highlights some applications of the sol–gel technology, including protective coatings, catalysts, piezoelectric devices, wave guides, lenses, high-strength ceramics, superconductors, synthesis of nanoparticles, and insulating materials. In particular, for biotechnological applications, biomolecules or the incorporation of bioactive substances into the sol–gel matrix has been extensively studied and has been a challenge for many researchers. Some sol–gel materials are widely applied in light-emitting diodes, solar cells, sensing, catalysis, integration in photovoltaic devices, and more recently in biosensing, bioimaging, or medical diagnosis; others can be considered excellent drug delivery systems. The goal of an ideal drug delivery system is the prompt delivery of a therapeutic amount of the drug to the proper site in the body, where the desired drug concentration can be maintained. The interactions between drugs and the sol–gel system can affect the release rate. In conclusion, the sol–gel synthesis method offers mixing at the molecular level and is able to improve the chemical homogeneity of the resulting composite. This opens new doors not only regarding

Keywords

sol-gel method --- Fourier transform infrared spectroscopy (FTIR) analysis --- bioactivity --- biocompatibility --- sol–gel method --- organic-inorganic hybrids --- chlorogenic acid --- cytotoxicity --- biocompatibility --- silsesquioxanes --- thiol-ene click reaction --- in situ water production --- hydrophobic coatings --- cotton fabric --- paper --- NMR --- wettability --- sol-gel --- hollow sphere --- 1D structure --- sol-gel --- thin-disk laser --- Yb-doped glasses --- aluminosilicate glasses --- photoluminescence --- ultrasonic spray deposition --- tungsten oxide --- lithium lanthanum titanium oxide --- conformal coating --- Li-ion batteries --- sol-gel technique --- biomaterials --- cell proliferation --- cell cycle --- one transistor and one resistor (1T1R) --- organic thin-film transistor (OTFT) --- resistive random access memory (RRAM) --- sol-gel --- lithium-ion battery --- LiMnxFe(1?x)PO4 --- carbon coating --- pseudo-diffusion coefficient --- potential step voltammetry --- electrochemical impedance spectroscopy --- sol-gel --- oxyfluoride glass-ceramics --- nanocrystal --- optical properties --- sol-gel method --- SiO2–based hybrids --- poly(?-caprolactone) --- TG-DSC --- TG-FTIR --- X-ray diffraction analysis --- computer-aided design (CAD) --- mechanical analysis --- finite element analysis (FEA) --- composites --- organic–inorganic hybrid materials --- biomedical applications --- metal oxides --- multi-layer --- surface plasmon resonance --- optical sensors --- computer-aided design (CAD) --- mechanical analysis --- finite element analysis (FEA) --- composites --- hybrid materials --- biomedical applications

Synthesis and Modification of Nanostructured Thin Films

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ISBN: 9783039284542 9783039284559 Year: Pages: 276 DOI: 10.3390/books978-3-03928-455-9 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Technology (General) --- General and Civil Engineering
Added to DOAB on : 2020-04-07 23:07:09
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The Special Issue “Synthesis and Modification of Nanostructured Thin Films” highlights the recent progress in thin film synthesis/modification and characterization. New methods are reviewed for the synthesis and/or modification of thin films based on laser, magnetron, chemical, and other techniques. The obtained thin nanostructures are characterized by complex and complementary techniques. We think that most of proposed methods can be directly applied in production, but some others still need further elaboration for long-term prospective applications in lasers, optics, materials, electronics, informatics, telecommunications, biology, medicine, and probably many other domains. The Guest Editor and the MDPI staff are therefore pleased to offer this Special Issue to interested readers, including graduate and PhD students as well as postdoctoral researchers, but also to the entire community interested in the field of nanomaterials. We share the conviction that this can serve as a useful tool for updating the literature, but also to aid in the conception of new production and/or research programs. There is plenty of room for further dedicated R&D advances based on new instruments and materials under development.

Keywords

AlGaN --- nanopatterned sapphire substrate --- hydride vapor phase epitaxy --- stress --- transmission electron microscopy --- copper nanowires --- CuNWs --- degradation --- encapsulation --- PDMS --- PMMA --- solution-based --- transparent electrode --- photonic crystal fiber --- demultiplexer --- dense wavelength division multiplexing --- lithium niobate --- waveguide --- photonic integrated circuit --- propagation loss --- optical lithography --- chemo-mechanical polishing --- gold thin film --- nonlinear absorption --- nonlinear refraction --- transient absorption --- nanoparticles --- high-order harmonics --- electroluminescence --- nanolaminate --- Al2O3 --- Tm2O3 --- atomic layer deposition --- germanium --- DLC --- doped biomaterials --- pulsed laser deposition --- reactive oxygen species --- apoptosis --- cytotoxicity --- titanium film --- interlayer --- cohesion --- residual stress --- nano-indenter --- nanocrystal --- CdTe --- Cu-doped --- ZnTe --- solar cells --- solution processed --- pulsed laser deposition --- chalcogenide thin films --- Raman spectroscopy --- spectroscopic ellipsometry --- noble metal nanoparticles --- pulsed laser ablation --- surface enhanced Raman spectroscopy --- antiepileptic drugs --- Zn2+ substituted Coll-CaPs biomimetic layers --- MAPLE --- spin coating --- dye-sensitized solar cells --- photovoltaic conversion efficiency --- TiO2 thin films --- pulsed laser deposition --- DLC bio-functionality --- silicon doping --- diffusion barrier --- biocompatibility --- proliferation improvement --- endothelial cells --- ZnO nanofilms --- SHG --- Ga doping --- polarization angle --- Cu2MgxZn1?xSnS4 --- thin films --- photoelectric performance --- sol–gel --- sulfuration treatment --- solar cell --- nanomaterial --- zinc oxide --- barium titanate --- composite --- ethylene vinyl acetate --- elastic modulus --- toughness --- flexural rigidity --- radiopacity --- piezoelectricity --- laser surface texturing --- laser-induced periodic surface structures --- LIPSS --- silicon --- PTFE --- friction --- n/a

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english (2)


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