Advances in Heterocatalysis by Nanomaterials

Advances in Heterocatalysis by Nanomaterials

Heterogeneous catalysis played, plays, and will continue to play, a major key role in industrial processes for large-scale synthesis of commodity chemicals of global importance, and in catalytic systems that possess a critical role in energy generation and environmental protection approaches. As a r...

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Bibliographic Details
Main Author: Chu, Wei(Willy) (auth)
Other Authors: Yentekakis, Ioannis (auth)
Format: Electronic Book Chapter
Language:English
Published: MDPI - Multidisciplinary Digital Publishing Institute 2020
Subjects:
n/a
B-doped
polyoxymethylene dimethyl ethers
porous carbon
self-catalytic pyrolysis
visible light
heterostructure
oxygen vacancies
TiO2 nanotube
thiadiazoles
ethylidenethiosemicarbazides
adsorption
dimethoxymethane
nano-biocatalyst
heterogeneous catalysis
bio-catalysis
H2 evolution
carbon cuboids
trioxymethylene
?-glucosidase
metal-organic frameworks
Brønsted acid sites
hybrid
MXene
oleuropein
Rhodamine B
antibiotics
maleic anhydride
oxygen evolution reaction
photocatalyst
2-methyl-3-butennitrile
halide perovskite
zeolites
electrospinning
Rh
Ti3C2Tx
heterostructures
hydroxytyrosol
photocatalysis
Ni/ZrO2
the maximum included sphere
functionalized olefin
selective hydrogenation
thiazoles
oxidation
visible-light
red P
chitosan-MgO nanocomposite
ZnO
g-C3N4/TiO2
hydroformylation
steric constraint
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Description
Summary:Heterogeneous catalysis played, plays, and will continue to play, a major key role in industrial processes for large-scale synthesis of commodity chemicals of global importance, and in catalytic systems that possess a critical role in energy generation and environmental protection approaches. As a result of the ongoing progress in materials science, nanotechnology, and characterizations, great advances have been achieved in heterogeneous catalysis by nanomaterials. Efficient approaches and advanced methods for the design of nano-structured composite materials (up to atomic level), subject to specific nano-morphologies with enhanced metal-metal and metal-support interactions favorable for catalysis (that enable fine-tuning of the critical properties of the designed catalysts), provide optimized catalysts with outstanding performances in numerous eco-friendly and cost-effective applications. Accordingly, great progress has been achieved involving, for example, emissions control, waste treatment, photocatalytic, bio-refinery, CO2 utilization, and fuel cells applications, as well as hydrocarbon processing for H2, added-value chemicals, and liquid fuels production. The themed Special Issue has succeeded in collecting 10 high-quality contributions that cover recent research progress in the field for a variety of applications (e.g., environment, energy, added-value chemicals/organics synthesis, and bio-transformation) declaring the prospect and importance of nanomaterials in all the directions of heterogeneous catalysis.
Physical Description:1 electronic resource (166 p.)
ISBN:books978-3-03928-836-6
9783039288359
9783039288366
Access:Open Access

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