Reprint

Nanoparticle for Catalysis

Edited by
January 2024
194 pages
  • ISBN978-3-0365-9689-1 (Hardback)
  • ISBN978-3-0365-9688-4 (PDF)

This is a Reprint of the Special Issue Nanoparticle for Catalysis that was published in

Biology & Life Sciences
Chemistry & Materials Science
Medicine & Pharmacology
Summary

Nanoparticle catalysts continue to be in the spotlight due to their unique performances in various chemical processes. With rapid progress in nanoscience and technology, nanoparticle-mediated reactions can be carried out in different systems regarding both gas and condensed phases. Due to the doping, surface, volume, and quantum size effects, elements in nanoparticles exhibit properties which are rather different from the ones in bulk materials, thus possibly affording higher catalytic activity and selectivity for specific reactions. This Special Issue aims to show insight into the recent advances in nanoparticle catalysis and focuses on the advantages, limitations, and future directions of nanoparticle-mediated reactions in both chemical and biological systems.

Format
  • Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
manganese ferrite; spinel; aniline; nanoparticles; Pd/MnFe2O4; nitrobenzene; solid-state synthesis; CuOx/Cu1.5Mn1.5O4 nanocomposites; surface CuOx species; oxygen vacancies; CO oxidation; N2 adsorption; mass spectrometry; density functional theory calculations; sterically hindered amine; reductive amination; competing mechanisms; in situ ATR–FTIR analysis; Pd-catalyst; porous materials; copper foam; catalytic; aqueous phase reaction; B2(pin)2; a, β-unsaturated ketone; nickel boride; primary amine; hydrogenation; reductive amination; ferrite; magnetic catalyst; hydrogenation; TDA; nanostructure; C-S coupling; DIPEA; Na2S2O3; nanocatalyst; Pd@COF-TB; metal−organic frameworks; phosphoric acid; photo-oxidation; oxygen radical; hydrogen production; TiO2; gold nanoparticles; MoS2; CeO2; water splitting; CO2 methanation; bimetallic catalyst; Ni-wool support; Ni-mesh support; Au; Pd; Re; Ru nanoparticles; spatial and tenacious form; induction heating; hydroconversion; furfural; furfuryl alcohol; 2-methylfuran; Cu-containing catalyst; microwave radiation; synthesis of catalysts; selective hydrogenation

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