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W3193622464 endingPage "122025" @default.
W3193622464 startingPage "122025" @default.
W3193622464 abstract "Hollow mesoporous silica nanoparticles (HMSNs), by exploiting both their organo-functionalized surface and porous shell were chosen as the ideal support for the immobilization of palladium nanoparticles (Pd-NPs). The HMSNs were created by acidic removal of Fe3O4 nanoparticles from silica-coated Fe3O4 core-shell. The catalyst was prepared following surface modification of HMSNs by (3-chloropropyl)-triethoxysilane (CPTES), functionalization by pyrazolone-based ligand, and stabilization of Pd-NPs on HMSNs. The resulting catalyst was fully characterized by different analytical techniques. This new heterogeneous catalyst showed high catalytic activity and excellent selectivity in the selective oxidation of benzyl alcohols in ethanol at ambient temperature. Easy separation by centrifuge and reusability for five successive cycles without significant loss of catalytic activity were some advantages of this catalyst." @default.
W3193622464 created "2021-08-30" @default.
W3193622464 creator A5025309975 @default.
W3193622464 creator A5037246940 @default.
W3193622464 creator A5067222866 @default.
W3193622464 date "2021-11-01" @default.
W3193622464 modified "2023-09-26" @default.
W3193622464 title "Pd nanoparticles supported on pyrazolone-functionalized hollow mesoporous silica as an excellent heterogeneous nanocatalyst for the selective oxidation of benzyl alcohol" @default.
W3193622464 cites W1736344323 @default.
W3193622464 cites W1850250172 @default.
W3193622464 cites W1971708631 @default.
W3193622464 cites W1973102027 @default.
W3193622464 cites W1973201167 @default.
W3193622464 cites W1975694604 @default.
W3193622464 cites W1977829043 @default.
W3193622464 cites W1983089035 @default.
W3193622464 cites W1986341870 @default.
W3193622464 cites W1988418844 @default.
W3193622464 cites W1992630127 @default.
W3193622464 cites W2004906357 @default.
W3193622464 cites W2007670307 @default.
W3193622464 cites W2009247984 @default.
W3193622464 cites W2010473873 @default.
W3193622464 cites W2011210226 @default.
W3193622464 cites W2011939671 @default.
W3193622464 cites W2014750532 @default.
W3193622464 cites W2015251407 @default.
W3193622464 cites W2015922142 @default.
W3193622464 cites W2019570687 @default.
W3193622464 cites W2023027070 @default.
W3193622464 cites W2029842534 @default.
W3193622464 cites W2033538784 @default.
W3193622464 cites W2038422288 @default.
W3193622464 cites W2048704620 @default.
W3193622464 cites W2049464451 @default.
W3193622464 cites W2060174978 @default.
W3193622464 cites W2072478148 @default.
W3193622464 cites W2078649746 @default.
W3193622464 cites W2087075274 @default.
W3193622464 cites W2092080118 @default.
W3193622464 cites W2093932620 @default.
W3193622464 cites W2095240537 @default.
W3193622464 cites W2107659960 @default.
W3193622464 cites W2109874479 @default.
W3193622464 cites W2112272805 @default.
W3193622464 cites W2121922967 @default.
W3193622464 cites W2124324065 @default.
W3193622464 cites W2141830653 @default.
W3193622464 cites W2142735388 @default.
W3193622464 cites W2144738542 @default.
W3193622464 cites W2146987542 @default.
W3193622464 cites W2149873541 @default.
W3193622464 cites W2157513813 @default.
W3193622464 cites W2158814908 @default.
W3193622464 cites W2171599642 @default.
W3193622464 cites W2190838388 @default.
W3193622464 cites W2290183075 @default.
W3193622464 cites W2298068275 @default.
W3193622464 cites W2310461050 @default.
W3193622464 cites W2327092122 @default.
W3193622464 cites W2517537542 @default.
W3193622464 cites W2523724325 @default.
W3193622464 cites W2538319891 @default.
W3193622464 cites W2557979230 @default.
W3193622464 cites W2566196689 @default.
W3193622464 cites W2587687954 @default.
W3193622464 cites W2592343398 @default.
W3193622464 cites W2725891045 @default.
W3193622464 cites W2736556529 @default.
W3193622464 cites W2744256564 @default.
W3193622464 cites W2765088786 @default.
W3193622464 cites W2793244116 @default.
W3193622464 cites W2793824040 @default.
W3193622464 cites W279425123 @default.
W3193622464 cites W2801099062 @default.
W3193622464 cites W2803966431 @default.
W3193622464 cites W2888235319 @default.
W3193622464 cites W2895404252 @default.
W3193622464 cites W2910670344 @default.
W3193622464 cites W2911091817 @default.
W3193622464 cites W2944927547 @default.
W3193622464 cites W2953189194 @default.
W3193622464 cites W2954220082 @default.
W3193622464 cites W295779880 @default.
W3193622464 cites W2979716240 @default.
W3193622464 cites W2980333029 @default.
W3193622464 cites W3001180052 @default.
W3193622464 cites W3008303372 @default.
W3193622464 cites W3022012596 @default.
W3193622464 cites W3037599276 @default.
W3193622464 cites W3039384260 @default.
W3193622464 cites W4238496441 @default.
W3193622464 doi "https://doi.org/10.1016/j.jorganchem.2021.122025" @default.
W3193622464 hasPublicationYear "2021" @default.
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