SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2892756917> ?p ?o ?g. }

Showing items 1 to 100 of ±163 with 100 items per page.

W2892756917 endingPage "1162" @default.
W2892756917 startingPage "1153" @default.
W2892756917 abstract "Superparamagnetic iron nanoparticles (SPION) have been functionalized with 3-mercaptopropionic acid (3-MPA), characterized and applied for the removal of Ag+, Hg2+ and Pb2+ metal ions from aqueous solutions by iron oxide (Fe3O4). The heavy metal adsorption has been investigated by means of ICP-OES and isothermal titration calorimetry. Experimental data ware better fitted by Langmuir rather than Freundlich isotherms, and the thermodynamic parameters for the adsorption process of the metal ions on the functionalized SPION nanoparticles (SPION@3-MPA) were obtained. Isothermal titration calorimetry (ITC) is applied to monitor heavy metal adsorption on SPION@3-MPA: the process results to be exothermic for Hg2+ and Ag+, while it is weakly endothermic in the case of Pb2+, and the adsorption enthalpies and entropies have been obtained. The values of the thermodynamic parameters suggest that the Ag+ and Hg2+ ions interact strongly with the thiol groups, while the Pb2+ ions seem to be adsorbed by the material mostly via electrostatic interaction. When compared to other thiol-functionalized materials, the obtained SPION@3-MPA NP can be considered a competitive adsorbent for Ag+ and Hg2+ ions. The comparison between the ICP-OES adsorption rate and the enthalpy trend obtained by ITC supports shows that the latter technique can be a good tool for a fast testing of materials to be applied for heavy metal separation from solutions." @default.
W2892756917 created "2018-10-05" @default.
W2892756917 creator A5015078929 @default.
W2892756917 creator A5058073200 @default.
W2892756917 creator A5070418898 @default.
W2892756917 creator A5073197025 @default.
W2892756917 date "2018-09-28" @default.
W2892756917 modified "2023-09-26" @default.
W2892756917 title "Thermodynamics of Hg2+ and Ag+ adsorption by 3-mercaptopropionic acid-functionalized superparamagnetic iron oxide nanoparticles" @default.
W2892756917 cites W1530484024 @default.
W2892756917 cites W1966185855 @default.
W2892756917 cites W1966380017 @default.
W2892756917 cites W1972278952 @default.
W2892756917 cites W1973508708 @default.
W2892756917 cites W1975320197 @default.
W2892756917 cites W1975959577 @default.
W2892756917 cites W1976504036 @default.
W2892756917 cites W1979493093 @default.
W2892756917 cites W1979690314 @default.
W2892756917 cites W1980235164 @default.
W2892756917 cites W1983360925 @default.
W2892756917 cites W1987522916 @default.
W2892756917 cites W1988777439 @default.
W2892756917 cites W1988975141 @default.
W2892756917 cites W1989506961 @default.
W2892756917 cites W1995512478 @default.
W2892756917 cites W2000515579 @default.
W2892756917 cites W2002244851 @default.
W2892756917 cites W2003740685 @default.
W2892756917 cites W2005567399 @default.
W2892756917 cites W2007111834 @default.
W2892756917 cites W2013351833 @default.
W2892756917 cites W2023052503 @default.
W2892756917 cites W2029997929 @default.
W2892756917 cites W2030047848 @default.
W2892756917 cites W2033519283 @default.
W2892756917 cites W2034676538 @default.
W2892756917 cites W2035000312 @default.
W2892756917 cites W2045080998 @default.
W2892756917 cites W2049076137 @default.
W2892756917 cites W2059079627 @default.
W2892756917 cites W2064268610 @default.
W2892756917 cites W2070586618 @default.
W2892756917 cites W2071492548 @default.
W2892756917 cites W2074303697 @default.
W2892756917 cites W2075745118 @default.
W2892756917 cites W2076689017 @default.
W2892756917 cites W2078121243 @default.
W2892756917 cites W2078274199 @default.
W2892756917 cites W2079033040 @default.
W2892756917 cites W2092315973 @default.
W2892756917 cites W2098012383 @default.
W2892756917 cites W2113536011 @default.
W2892756917 cites W2127767237 @default.
W2892756917 cites W2131853410 @default.
W2892756917 cites W2137759634 @default.
W2892756917 cites W2139553865 @default.
W2892756917 cites W2158887780 @default.
W2892756917 cites W2166558963 @default.
W2892756917 cites W2166570846 @default.
W2892756917 cites W2238931339 @default.
W2892756917 cites W2305036154 @default.
W2892756917 cites W2313803773 @default.
W2892756917 cites W2328486972 @default.
W2892756917 cites W2336084260 @default.
W2892756917 cites W2347145378 @default.
W2892756917 cites W2417646045 @default.
W2892756917 cites W2462632654 @default.
W2892756917 cites W2519039394 @default.
W2892756917 cites W2564876619 @default.
W2892756917 cites W2735259204 @default.
W2892756917 cites W2736358667 @default.
W2892756917 cites W2742440132 @default.
W2892756917 cites W2754621672 @default.
W2892756917 cites W2782073034 @default.
W2892756917 cites W2807330780 @default.
W2892756917 cites W2807631825 @default.
W2892756917 cites W2810561398 @default.
W2892756917 cites W4235640375 @default.
W2892756917 cites W990113952 @default.
W2892756917 doi "https://doi.org/10.1007/s10973-018-7763-0" @default.
W2892756917 hasPublicationYear "2018" @default.
W2892756917 type Work @default.
W2892756917 sameAs 2892756917 @default.
W2892756917 citedByCount "11" @default.
W2892756917 countsByYear W28927569172019 @default.
W2892756917 countsByYear W28927569172020 @default.
W2892756917 countsByYear W28927569172022 @default.
W2892756917 countsByYear W28927569172023 @default.
W2892756917 crossrefType "journal-article" @default.
W2892756917 hasAuthorship W2892756917A5015078929 @default.
W2892756917 hasAuthorship W2892756917A5058073200 @default.
W2892756917 hasAuthorship W2892756917A5070418898 @default.
W2892756917 hasAuthorship W2892756917A5073197025 @default.
W2892756917 hasBestOaLocation W28927569172 @default.
W2892756917 hasConcept C112825004 @default.
W2892756917 hasConcept C115260700 @default.
W2892756917 hasConcept C115958267 @default.