FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3035969540> ?p ?o ?g. }

• W3035969540 endingPage "147012" @default.
• W3035969540 startingPage "147012" @default.
• W3035969540 abstract "Schwertmannite was widely used to control the mobility and bioavailability of heavy metals. However, controllable biosynthesis of schwertmannite through a mild way is challenging. The objective of this research is to systematically investigate the feasibility of controllable biosynthesis of nanoscale schwertmannite through aluminum modification and evaluates the removal efficiency and mechanism of heavy metals. The results showed that Fe(II) oxidizing and biosynthesis ability of Acidithiobacillu ferrooxidans was not inhibited by Al(III) ions. Directional regulation of the morphology, structure, and functional groups of schwertmannite was revealed in the controllable biosynthesis system. Schwertmannite transformed to nanoscale wire in the Fe/Al ratio 15:30 condition, but the phase and crystal structure remain unchanged. Al(III) modification effectively enhanced the content of hydroxyl groups and sulfate in schwertmannite and the adsorption reactivity. The highest adsorption capacity toward Cu(II)/Cr(VI) reached 53.82/87.26 in schwertmannite biosynthesized with Fe/Al ratio 15/30. In addition, biosynthetic schwertmannite possess deep removal capacity toward low concentration metals and selective adsorption capacity to complex metals. Heavy metals adsorbed on schwertmannite through cation exchange, surface complexation and ligand exchange. This research is of great significance for in deep understanding of material biosynthesis and the application of waste water treatment." @default.
• W3035969540 created "2020-06-25" @default.
• W3035969540 creator A5039446355 @default.
• W3035969540 creator A5040869206 @default.
• W3035969540 creator A5065710684 @default.
• W3035969540 date "2020-11-01" @default.
• W3035969540 modified "2023-10-15" @default.
• W3035969540 title "Controllable biosynthesis of nanoscale schwertmannite and the application in heavy metal effective removal" @default.
• W3035969540 cites W1160734333 @default.
• W3035969540 cites W1527271978 @default.
• W3035969540 cites W1963916192 @default.
• W3035969540 cites W1966551977 @default.
• W3035969540 cites W2009181646 @default.
• W3035969540 cites W2022778259 @default.
• W3035969540 cites W2024731134 @default.
• W3035969540 cites W2037678953 @default.
• W3035969540 cites W2047735969 @default.
• W3035969540 cites W2056444470 @default.
• W3035969540 cites W2065744494 @default.
• W3035969540 cites W2067402557 @default.
• W3035969540 cites W2067673221 @default.
• W3035969540 cites W2075364449 @default.
• W3035969540 cites W2082979737 @default.
• W3035969540 cites W2084895845 @default.
• W3035969540 cites W2086310795 @default.
• W3035969540 cites W2089150598 @default.
• W3035969540 cites W2091105628 @default.
• W3035969540 cites W2094396843 @default.
• W3035969540 cites W2165277984 @default.
• W3035969540 cites W2908271104 @default.
• W3035969540 cites W2912724961 @default.
• W3035969540 cites W2914973186 @default.
• W3035969540 cites W999134602 @default.
• W3035969540 doi "https://doi.org/10.1016/j.apsusc.2020.147012" @default.
• W3035969540 hasPublicationYear "2020" @default.
• W3035969540 type Work @default.
• W3035969540 sameAs 3035969540 @default.
• W3035969540 citedByCount "16" @default.
• W3035969540 countsByYear W30359695402021 @default.
• W3035969540 countsByYear W30359695402022 @default.
• W3035969540 countsByYear W30359695402023 @default.
• W3035969540 crossrefType "journal-article" @default.
• W3035969540 hasAuthorship W3035969540A5039446355 @default.
• W3035969540 hasAuthorship W3035969540A5040869206 @default.
• W3035969540 hasAuthorship W3035969540A5065710684 @default.
• W3035969540 hasConcept C150394285 @default.
• W3035969540 hasConcept C178790620 @default.
• W3035969540 hasConcept C179104552 @default.
• W3035969540 hasConcept C181199279 @default.
• W3035969540 hasConcept C185592680 @default.
• W3035969540 hasConcept C2777624298 @default.
• W3035969540 hasConcept C2777787761 @default.
• W3035969540 hasConcept C2910531665 @default.
• W3035969540 hasConcept C544778455 @default.
• W3035969540 hasConcept C553450214 @default.
• W3035969540 hasConcept C98380375 @default.
• W3035969540 hasConceptScore W3035969540C150394285 @default.
• W3035969540 hasConceptScore W3035969540C178790620 @default.
• W3035969540 hasConceptScore W3035969540C179104552 @default.
• W3035969540 hasConceptScore W3035969540C181199279 @default.
• W3035969540 hasConceptScore W3035969540C185592680 @default.
• W3035969540 hasConceptScore W3035969540C2777624298 @default.
• W3035969540 hasConceptScore W3035969540C2777787761 @default.
• W3035969540 hasConceptScore W3035969540C2910531665 @default.
• W3035969540 hasConceptScore W3035969540C544778455 @default.
• W3035969540 hasConceptScore W3035969540C553450214 @default.
• W3035969540 hasConceptScore W3035969540C98380375 @default.
• W3035969540 hasFunder F4320321001 @default.
• W3035969540 hasFunder F4320321514 @default.
• W3035969540 hasLocation W30359695401 @default.
• W3035969540 hasOpenAccess W3035969540 @default.
• W3035969540 hasPrimaryLocation W30359695401 @default.
• W3035969540 hasRelatedWork W2034798318 @default.
• W3035969540 hasRelatedWork W2046064269 @default.
• W3035969540 hasRelatedWork W2368945696 @default.
• W3035969540 hasRelatedWork W2393490971 @default.
• W3035969540 hasRelatedWork W2606133187 @default.
• W3035969540 hasRelatedWork W2945761099 @default.
• W3035969540 hasRelatedWork W3089204416 @default.
• W3035969540 hasRelatedWork W3148450633 @default.
• W3035969540 hasRelatedWork W4281673110 @default.
• W3035969540 hasRelatedWork W4281679266 @default.
• W3035969540 hasVolume "529" @default.
• W3035969540 isParatext "false" @default.
• W3035969540 isRetracted "false" @default.
• W3035969540 magId "3035969540" @default.
• W3035969540 workType "article" @default.