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Application of New Nanoparticle Structures as Catalysts

Catalysts are made of nanoparticles of metals, metal oxides, and other compounds that may act as active phases, support the latter, or a combination of both. The initial incentive to reduce as much as possible, up to the nano-scale, the size of the particles of active catalyst components is to maxim...

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Bibliographic Details
Other Authors: Guerrero Ruiz, Antonio (Editor), Rodríguez-Ramos, Inmaculada (Editor)
Format: Electronic Book Chapter
Language:English
Published: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2020
Subjects:
Research & information: general
plasmonic photocatalyst
metal nanoparticle
N-TiO2
nanocomposites
photocatalytic selective oxidation
heterogeneous catalysis
transition metal nitrides
hydrogen production
formic acid decomposition
nickel catalyst
calcium oxide promoter
silica support
Iron-based perovskites
copper
NO oxidation to NO2
NO2-assisted diesel soot oxidation
soot oxidation under GDI exhaust conditions
aqueous-phase reforming
nickel
ceria
zirconia
calcium
yttrium
methanol
graphite
reduced graphene oxide
nitrogen-doped reduced graphene oxide
exfoliation
oxygen reduction reaction
electrocatalysis
UiO-66
iron
cobalt
nanocatalyst
CO oxidation
COProx
methane
oxidation catalysis
formaldehyde
magnetite iron oxide
Fe3O4
palladium
Pd
silver
Ag
low-temperature activity
nanocomposite
Raman
TG in air
TG in hydrogen
XRD
electron microscopy
EDS
coordination polymers
methane storage
XRD crystallinity measurements
mechanical shaping
compaction
VAM
gas separation
MOF pelletization
catalysts
dimerization
isobutene
olefins
n/a
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Description
Summary:Catalysts are made of nanoparticles of metals, metal oxides, and other compounds that may act as active phases, support the latter, or a combination of both. The initial incentive to reduce as much as possible, up to the nano-scale, the size of the particles of active catalyst components is to maximize the surface area exposed to reactants, thus minimizing the specific cost per function and increasing the rate of conversion of feedstocks to products in relatively simple reactions. Nowadays, the interest in nanocatalyst developments has shifted to an emphasis on improving the selectivity of catalysts, allowing one to obtain desirable reactions in more complex synthetic processes. Thus, new generations of nanocatalysts should be designed at the molecular level to display well-defined structural characteristics, in terms of size, shapes, hierarchical porosity, and morphologies, as well as with controlled chemical composition. The development of efficient nanocatalysts supposes the characterization of their various surface active sites at the nanometer scale, which is focused on establishing synthesis-structure-performance relationships.
Physical Description:1 electronic resource (190 p.)
ISBN:books978-3-03943-251-6
9783039432509
9783039432516
Access:Open Access

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