FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4212852103> ?p ?o ?g. }

• W4212852103 endingPage "134047" @default.
• W4212852103 startingPage "134047" @default.
• W4212852103 abstract "As rapid industrial and social growth, antimony mines are the overexploited, leading to the accumulation of trivalent antimony in the aquatic environment near smelters, which harm human health. To eradicate trivalent antimony from water, an innovative nanomaterial in the form of sludge biochar loaded with zero-valent bimetal was synthesized using a liquid-phase reduction method. The adsorption performance of the nanomaterial for trivalent antimony was investigated based on a series of adsorption experiments using sludge biochar, nano zero-valent iron biochar, and nano zero-valent bimetal biochar. The results showed that the optimal adsorption performance of the three nanomaterials for trivalent antimony, considering the economic practicability, was highlighted at solution pH of 3 and 0.05 g of nanomaterial. Additionally, the maximum adsorption capacity of sludge biochar, nano zero-valent iron biochar, and nano zero-valent bimetal biochar is 3.89 mg g-1 at 35 °C, 32.01 mg g-1 at 25 °C, 50.96 mg g-1 at 25 °C, respectively. The adsorption process of sludge biochar is endothermic, resulting in an increase in the adsorption capacity with increasing temperature, whereas the exothermic reaction contributes to decrease in the adsorption capacity at increasing temperature for the other two carbon nanomaterials. The inhibitory effect of coexisting ions was in the order: Al3+ > NH4+ > Na+ > K+; CO32- > CH3COO- > H2PO4- > S2-. Additionally, nanomaterials promoted seed germination and growth. Investigation of the adsorption mechanism using X-ray photoelectron spectroscopy showed that trivalent antimony was oxidised to pentavalent antimony, and Fe(III) was reduced to Fe(II). The formed primary battery formed by copper ions and iron acclerated electron transfer and improved the adsorption rate. This implied that trivalent antimony could be removed through the synergistic action of the adsorption behaviour and redox reaction. Therefore, the biochar loaded with the zero-valent bimetal serves as a pathway for eradicating trivalent antimony." @default.
• W4212852103 created "2022-02-24" @default.
• W4212852103 creator A5058624860 @default.
• W4212852103 creator A5067688667 @default.
• W4212852103 creator A5089796940 @default.
• W4212852103 creator A5090177172 @default.
• W4212852103 date "2022-06-01" @default.
• W4212852103 modified "2023-10-18" @default.
• W4212852103 title "Trivalent antimony removal using carbonaceous nanomaterial loaded with zero-valent bimetal (iron/copper) and their effect on seed growth" @default.
• W4212852103 cites W2056698497 @default.
• W4212852103 cites W2059582758 @default.
• W4212852103 cites W2766203977 @default.
• W4212852103 cites W2783436583 @default.
• W4212852103 cites W2784130204 @default.
• W4212852103 cites W2792399828 @default.
• W4212852103 cites W2797884249 @default.
• W4212852103 cites W2805489287 @default.
• W4212852103 cites W2885172604 @default.
• W4212852103 cites W2900601609 @default.
• W4212852103 cites W2921797412 @default.
• W4212852103 cites W2944175225 @default.
• W4212852103 cites W2952915012 @default.
• W4212852103 cites W2964696205 @default.
• W4212852103 cites W2988343224 @default.
• W4212852103 cites W2993349926 @default.
• W4212852103 cites W2997127099 @default.
• W4212852103 cites W3001840612 @default.
• W4212852103 cites W3009503108 @default.
• W4212852103 cites W3012354102 @default.
• W4212852103 cites W3014063509 @default.
• W4212852103 cites W3028486832 @default.
• W4212852103 cites W3034232521 @default.
• W4212852103 cites W3037927088 @default.
• W4212852103 cites W3044217833 @default.
• W4212852103 cites W3047509349 @default.
• W4212852103 cites W3048621805 @default.
• W4212852103 cites W3049633516 @default.
• W4212852103 cites W3133667266 @default.
• W4212852103 cites W3135280011 @default.
• W4212852103 cites W3136647750 @default.
• W4212852103 cites W3137843533 @default.
• W4212852103 cites W3140082879 @default.
• W4212852103 cites W3172884885 @default.
• W4212852103 cites W3181021337 @default.
• W4212852103 cites W3194062213 @default.
• W4212852103 cites W3194736031 @default.
• W4212852103 cites W3195873725 @default.
• W4212852103 cites W3205083014 @default.
• W4212852103 cites W3213637832 @default.
• W4212852103 cites W3216585174 @default.
• W4212852103 cites W4200319376 @default.
• W4212852103 cites W4200319852 @default.
• W4212852103 cites W960473754 @default.
• W4212852103 doi "https://doi.org/10.1016/j.chemosphere.2022.134047" @default.
• W4212852103 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35183581" @default.
• W4212852103 hasPublicationYear "2022" @default.
• W4212852103 type Work @default.
• W4212852103 citedByCount "13" @default.
• W4212852103 countsByYear W42128521032022 @default.
• W4212852103 countsByYear W42128521032023 @default.
• W4212852103 crossrefType "journal-article" @default.
• W4212852103 hasAuthorship W4212852103A5058624860 @default.
• W4212852103 hasAuthorship W4212852103A5067688667 @default.
• W4212852103 hasAuthorship W4212852103A5089796940 @default.
• W4212852103 hasAuthorship W4212852103A5090177172 @default.
• W4212852103 hasConcept C138631740 @default.
• W4212852103 hasConcept C13965031 @default.
• W4212852103 hasConcept C147789679 @default.
• W4212852103 hasConcept C150394285 @default.
• W4212852103 hasConcept C171250308 @default.
• W4212852103 hasConcept C178790620 @default.
• W4212852103 hasConcept C179104552 @default.
• W4212852103 hasConcept C185592680 @default.
• W4212852103 hasConcept C192562407 @default.
• W4212852103 hasConcept C2779647737 @default.
• W4212852103 hasConcept C36759035 @default.
• W4212852103 hasConcept C40472508 @default.
• W4212852103 hasConcept C541565711 @default.
• W4212852103 hasConcept C56085101 @default.
• W4212852103 hasConcept C74793105 @default.
• W4212852103 hasConceptScore W4212852103C138631740 @default.
• W4212852103 hasConceptScore W4212852103C13965031 @default.
• W4212852103 hasConceptScore W4212852103C147789679 @default.
• W4212852103 hasConceptScore W4212852103C150394285 @default.
• W4212852103 hasConceptScore W4212852103C171250308 @default.
• W4212852103 hasConceptScore W4212852103C178790620 @default.
• W4212852103 hasConceptScore W4212852103C179104552 @default.
• W4212852103 hasConceptScore W4212852103C185592680 @default.
• W4212852103 hasConceptScore W4212852103C192562407 @default.
• W4212852103 hasConceptScore W4212852103C2779647737 @default.
• W4212852103 hasConceptScore W4212852103C36759035 @default.
• W4212852103 hasConceptScore W4212852103C40472508 @default.
• W4212852103 hasConceptScore W4212852103C541565711 @default.
• W4212852103 hasConceptScore W4212852103C56085101 @default.
• W4212852103 hasConceptScore W4212852103C74793105 @default.
• W4212852103 hasFunder F4320322272 @default.
• W4212852103 hasLocation W42128521031 @default.
• W4212852103 hasLocation W42128521032 @default.

• next