New Advances into Nanostructured Oxides

New Advances into Nanostructured Oxides

In recent years, inorganic oxidic nanomaterials have been extensively investigated for their outstanding properties that allow their use within a large variety of raising fields of interest, ranging from (photo)catalysis to the development of functional nanocomposites. Nanoscopic metal (eventually m...

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Bibliographic Details
Other Authors: Nisticò, Roberto (Editor)
Format: Electronic Book Chapter
Language:English
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2023
Subjects:
Research & information: general
Chemistry
Inorganic chemistry
alumino-silicates
biomedicine
ceramics
clays
inorganic chemistry
environmental remediation
nanomaterials
porous materials
mesoporous material
zero-valent-iron nanoparticles
methylene blue adsorption
metal-organic framework
iridium oxide
nanostructuration
IrO2 applications
IrO2 synthesis
OER
C3N4
ZnO
heterojunction
photocatalyst
metal oxide nanocomposites
microstructural analysis
electrospinning
polymer substrate
photodegradation
LSA 99Mo
thermodynamic parameters
solid-phase extraction
isotherm
metal oxides NPs
Ni-Fe-TiO2 nanocomposite
microstructure
biocompatibility
endodontic file
graphitic carbon nitride
photocatalysts
g-C3N4/ZnO
visible light
photocatalytic degradation
inorganic coatings
functional coatings
stimuli-responsive polymers
sol-gel
antimicrobial
wear-resistance
photo-catalytic activity
UV protection
calcium oxide-doped carbon nitride nanostructures
basic fuchsine
elimination mechanism
π-π stacking
magnetic nanoparticles
magnetite
solvothermal synthesis
waste valorization
green chemistry
advanced oxidation processes
experimental protocols
heterogeneous catalysis
inorganic thermal activation
organic pollutants
perovskites
physico-chemical characterization
solution combustion synthesis
strontium ferrates
water treatment
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Description
Summary:In recent years, inorganic oxidic nanomaterials have been extensively investigated for their outstanding properties that allow their use within a large variety of raising fields of interest, ranging from (photo)catalysis to the development of functional nanocomposites. Nanoscopic metal (eventually mixed) oxides are often fabricated following soft-chemistry approaches, characterized by the possibility of favouring specific morphologies, particles dimensions, and surface porosities through different synthetic methods and templating processes. In this context, surface functionalities and reactivity play a major role in the determination of nanomaterials final properties. For this reason, further surface functionalization with specific chemical moieties is often recommended to extend their field of application. This Special Issue, now edited as a book, aimed at extending the comprehension of the mechanisms involved in the synthesis and templating of inorganic oxidic nanomaterials, as well as in their surface functionalization and reactivity. Additionally, this Special Issue aimed at increasing the knowledge on the latest advances of these systems in (photo)catalysis, environmental clean-up processes, energy storage, controlled transport and/or release, biomedicine, sensing, development of smart-materials, stimuli-responsive materials, and nanocomposites. Nanomaterials of interest included: silica, alumina, titania, zirconia, zinc oxide, aluminosilicates, iron oxides, perovskites and titanates, rare earth oxides, and composites. Furthermore, particular attention was dedicated toward studies describing alternative ecofriendly preparation methods.
Physical Description:1 electronic resource (218 p.)
ISBN:books978-3-0365-7522-3
9783036575230
9783036575223
Access:Open Access

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