Fe3O4@SiO2@CSH+VO3− as a novel recyclable heterogeneous catalyst with core–shell structure for oxidation of sulfides
UZI Al-Zubaidi, K Bahrami, M Khodamorady - Scientific Reports, 2024 - nature.com
Iron nanoparticles, with low toxicity and many active sites, are among the materials that not
only reduce waste along with green chemistry but also increase the separation power and …
only reduce waste along with green chemistry but also increase the separation power and …
Copper-based magnetic nanocatalysts for the catalytic transfer hydrogenation of biomass-derived furfural
J Gaete, G Valdebenito, I Moglia… - Applied Surface …, 2025 - Elsevier
In recent years, the production of high-value-added products from biomass-derived platform
molecules has been considered an environmentally friendly alternative. In this context, we …
molecules has been considered an environmentally friendly alternative. In this context, we …
Oxovanadium (IV) unsymmetrical salophen complex supported on modified silica-coated CoFe2O4 nanoparticles: A magnetically recoverable nanocatalyst for …
M Aliavazi, MH Ardakani, A Naeimi - Inorganic Chemistry Communications, 2024 - Elsevier
In this study, an oxovanadium (IV) unsymmetrical salophen complex, VO (salophen-OH)
where salophen-OH= 4-[(E)-{(2-[(E)-2-hydroxybenzylidene) amino] phenyl} imino) methyl] …
where salophen-OH= 4-[(E)-{(2-[(E)-2-hydroxybenzylidene) amino] phenyl} imino) methyl] …
Fe3O4@ SiO2@ CS. HCl. VO3 as A Novel Recyclable Heterogeneous Catalyst with Core-Shell Structure for Oxidation of Sulfides
UZ Ismaile, K Bahrami, M Khodamorady - 2023 - researchsquare.com
Iron nanoparticles, with low toxicity and many active sites, are among the materials that not
only reduce waste along with green chemistry, but also increase the separation power and …
only reduce waste along with green chemistry, but also increase the separation power and …