SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2000398883> ?p ?o ?g. }

Showing items 1 to 100 of ±128 with 100 items per page.

W2000398883 endingPage "2355" @default.
W2000398883 startingPage "2336" @default.
W2000398883 abstract "Redox processes of structural Fe in clay minerals play an important role in biogeochemical cycles and for the dynamics of contaminant transformation in soils and aquifers. Reactions of Fe(II)/Fe(III) in clay minerals depend on a variety of mineralogical and environmental factors, which make the assessment of Fe redox reactivity challenging. Here, we use middle and near infrared (IR) spectroscopy to identify reactive structural Fe(II) arrangements in four smectites that differ in total Fe content, octahedral cationic composition, location of the negative excess charge, and configuration of octahedral hydroxyl groups. Additionally, we investigated the mineral properties responsible for the reversibility of structural alterations during Fe reduction and re-oxidation. For Wyoming montmorillonite (SWy-2), a smectite of low structural Fe content (2.8 wt%), we identified octahedral AlFe(II)–OH as the only reactive Fe(II) species, while high structural Fe content (>12 wt%) was prerequisite for the formation of multiple Fe(II)-entities (dioctahedral AlFe(II)–OH, MgFe(II)–OH, Fe(II)Fe(II)–OH, and trioctahedral Fe(II)Fe(II)Fe(II)–OH) in iron-rich smectites Ölberg montmorillonite, and ferruginous smectite (SWa-1), as well as in synthetic nontronite. Depending on the overall cationic composition and the location of excess charge, different reactive Fe(II) species formed during Fe reduction in iron-rich smectites, including tetrahedral Fe(II) groups in synthetic nontronite. Trioctahedral Fe(II) domains were found in tetrahedrally charged ferruginous smectite and synthetic nontronite in their reduced state while these Fe(II) entities were absent in Ölberg montmorillonite, which exhibits an octahedral layer charge. Fe(III) reduction in iron-rich smectites was accompanied by intense dehydroxylation and structural rearrangements, which were only partially reversible through re-oxidation. Re-oxidation of Wyoming montmorillonite, in contrast, restored the original mineral structure. Fe(II) oxidation experiments with nitroaromatic compounds as reactive probes were used to link our spectroscopic evidence to the apparent reactivity of structural Fe(II) in a generalized kinetic model, which takes into account the presence of Fe(II) entities of distinctly different reactivity as well as the dynamics of Fe(II) rearrangements." @default.
W2000398883 created "2016-06-24" @default.
W2000398883 creator A5045330091 @default.
W2000398883 creator A5050003844 @default.
W2000398883 creator A5073741393 @default.
W2000398883 date "2011-05-01" @default.
W2000398883 modified "2023-10-18" @default.
W2000398883 title "Evaluation of redox-active iron sites in smectites using middle and near infrared spectroscopy" @default.
W2000398883 cites W1538545315 @default.
W2000398883 cites W1964020509 @default.
W2000398883 cites W1964799795 @default.
W2000398883 cites W1970205353 @default.
W2000398883 cites W1977554124 @default.
W2000398883 cites W1982689190 @default.
W2000398883 cites W1987017467 @default.
W2000398883 cites W1988022888 @default.
W2000398883 cites W1995897201 @default.
W2000398883 cites W2007532573 @default.
W2000398883 cites W2010858086 @default.
W2000398883 cites W2024627840 @default.
W2000398883 cites W2026699540 @default.
W2000398883 cites W2027259623 @default.
W2000398883 cites W2031137103 @default.
W2000398883 cites W2031634769 @default.
W2000398883 cites W2035758570 @default.
W2000398883 cites W2040461496 @default.
W2000398883 cites W2041870105 @default.
W2000398883 cites W2047811111 @default.
W2000398883 cites W2048524199 @default.
W2000398883 cites W2049626024 @default.
W2000398883 cites W2052729873 @default.
W2000398883 cites W2055678968 @default.
W2000398883 cites W2057207277 @default.
W2000398883 cites W2069617224 @default.
W2000398883 cites W2071348993 @default.
W2000398883 cites W2071704543 @default.
W2000398883 cites W2075925135 @default.
W2000398883 cites W2079950833 @default.
W2000398883 cites W2088721991 @default.
W2000398883 cites W2090892825 @default.
W2000398883 cites W2095942008 @default.
W2000398883 cites W2099903411 @default.
W2000398883 cites W2100838242 @default.
W2000398883 cites W2113222140 @default.
W2000398883 cites W2128008733 @default.
W2000398883 cites W2133810330 @default.
W2000398883 cites W2136518035 @default.
W2000398883 cites W2144950249 @default.
W2000398883 cites W2149096931 @default.
W2000398883 cites W2149622583 @default.
W2000398883 cites W2154441668 @default.
W2000398883 cites W2156793406 @default.
W2000398883 cites W2166300301 @default.
W2000398883 cites W2167734439 @default.
W2000398883 cites W2168823400 @default.
W2000398883 cites W2171207786 @default.
W2000398883 cites W2313579573 @default.
W2000398883 cites W2335812924 @default.
W2000398883 cites W2406928906 @default.
W2000398883 cites W2887521288 @default.
W2000398883 cites W2980701142 @default.
W2000398883 cites W4255318614 @default.
W2000398883 doi "https://doi.org/10.1016/j.gca.2011.02.009" @default.
W2000398883 hasPublicationYear "2011" @default.
W2000398883 type Work @default.
W2000398883 sameAs 2000398883 @default.
W2000398883 citedByCount "104" @default.
W2000398883 countsByYear W20003988832012 @default.
W2000398883 countsByYear W20003988832013 @default.
W2000398883 countsByYear W20003988832014 @default.
W2000398883 countsByYear W20003988832015 @default.
W2000398883 countsByYear W20003988832016 @default.
W2000398883 countsByYear W20003988832017 @default.
W2000398883 countsByYear W20003988832018 @default.
W2000398883 countsByYear W20003988832019 @default.
W2000398883 countsByYear W20003988832020 @default.
W2000398883 countsByYear W20003988832021 @default.
W2000398883 countsByYear W20003988832022 @default.
W2000398883 countsByYear W20003988832023 @default.
W2000398883 crossrefType "journal-article" @default.
W2000398883 hasAuthorship W2000398883A5045330091 @default.
W2000398883 hasAuthorship W2000398883A5050003844 @default.
W2000398883 hasAuthorship W2000398883A5073741393 @default.
W2000398883 hasBestOaLocation W20003988832 @default.
W2000398883 hasConcept C153642686 @default.
W2000398883 hasConcept C178790620 @default.
W2000398883 hasConcept C179104552 @default.
W2000398883 hasConcept C185592680 @default.
W2000398883 hasConcept C199289684 @default.
W2000398883 hasConcept C2777515222 @default.
W2000398883 hasConcept C2780263894 @default.
W2000398883 hasConcept C2780644076 @default.
W2000398883 hasConcept C40212044 @default.
W2000398883 hasConcept C47580086 @default.
W2000398883 hasConcept C55904794 @default.
W2000398883 hasConceptScore W2000398883C153642686 @default.
W2000398883 hasConceptScore W2000398883C178790620 @default.
W2000398883 hasConceptScore W2000398883C179104552 @default.