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Functional Nanoporous Materials

With pore sizes up to 100 nm, the term "nanoporous" covers a wide range of material classes. A broad field of applications has arisen from the diversity of unique structures and properties of nanoporous materials. Recent research spans the range from fundamental studies of the behavior of atoms and...

Szczegółowa specyfikacja

Zapisane w:
Format: Online
Język:angielski
Wydane: MDPI - Multidisciplinary Digital Publishing Institute 2021
Hasła przedmiotowe:
mesoporous silica
organocatalysis
host–guest materials
magic-angle spinning NMR (MAS-NMR)
nanoporous metal foam
nanoshell
buckling
free vibration
strain gradient theory
first-order shear deformation theory
SERS
near-infrared
crystal silicon photoluminescence
porous silicon photonic crystals
hot-spots
mesoporous films
direct growth
esterification
material formation
porous organic polymers
amine modification
CO2 separation
adsorption mechanism
chemisorption of CO2
Birnessite
nanoporous metal oxides
impedance spectroscopy
perovskite solar cell
electron selective layer
pinhole
mesoporous TiO2
evaporation-induced self-assembly
dip coating
n/a
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
Dostęp online:ONIX_20210501_9783039288953_421
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Streszczenie:With pore sizes up to 100 nm, the term "nanoporous" covers a wide range of material classes. A broad field of applications has arisen from the diversity of unique structures and properties of nanoporous materials. Recent research spans the range from fundamental studies of the behavior of atoms and molecules in confined space, creative synthetic pathways for novel materials, to applications in high-performance technologies. This Special Issue collects current studies about the progress in the development, characterization, and application of nanoporous materials, including (but not restricted to) mesoporous silica, carbon and metal oxides, porous coordination polymers, metal organic frameworks (MOFs), and covalent organic frameworks (COFs), as well as materials exhibiting hierarchical porosity. Their functionalities show promise for fields such as energy storage/conversion (e.g., photocatalysis and battery electrodes), sensing, catalysis, and their sorption properties for N2, CO2, NOx, or H2O, to name just a few.

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