2011
DOI: 10.1007/s11157-011-9258-3
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Cation-mediated cross-linking in natural organic matter: a review

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Cited by 111 publications
(80 citation statements)
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References 136 publications
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“…While increasing evidence has been gained supporting the water molecule bridge model (WaMB) on the molecular scale (Aquino et al, 2009;Schaumann and Bertmer, 2008), only lately, new findings about the nature of cation bridges (CaB) in SOM have been obtained. The CaB model is currently under discussion as summarized in the review paper of Kunhi Mouvenchery et al (2012). The current research confirms that multivalent cations can form coordinative cross-links in SOM, but the status of these CaB is determined not only by the interaction between cations and functional groups, but also by the spatial arrangement of the functional groups in the OM matrix (Kunhi Mouvenchery et al, 2012).…”
Section: Introductionsupporting
confidence: 54%
See 1 more Smart Citation
“…While increasing evidence has been gained supporting the water molecule bridge model (WaMB) on the molecular scale (Aquino et al, 2009;Schaumann and Bertmer, 2008), only lately, new findings about the nature of cation bridges (CaB) in SOM have been obtained. The CaB model is currently under discussion as summarized in the review paper of Kunhi Mouvenchery et al (2012). The current research confirms that multivalent cations can form coordinative cross-links in SOM, but the status of these CaB is determined not only by the interaction between cations and functional groups, but also by the spatial arrangement of the functional groups in the OM matrix (Kunhi Mouvenchery et al, 2012).…”
Section: Introductionsupporting
confidence: 54%
“…A significant factor for matrix rigidity are cross-links between SOM molecule sections mediated by water molecules (Aquino et al, 2009;Schaumann and Leboeuf, 2005;Schaumann and Bertmer, 2008), which currently is the only explanation accounting for the unexpected thermal and aging behavior of peat and numerous soil samples, or by mono-and multivalent cations (Kunhi Mouvenchery et al, 2012;Lu and Pignatello, 2004;Schaumann, 2000). Formation and disruption of water molecule bridges or cation bridges may close or open sorption sites in soil organic matter and immobilize certain otherwise unstable molecular arrangements at the surface.…”
Section: Introductionmentioning
confidence: 99%
“…Humic acid has also the capability to immobilize Ag + ions and is a mild reducer, leading to the formation of new Ag NPs after dissolution of the original ones [134][135][136], with influences on the Ag + release dynamics. Additionally, DOM can immobilize other species, such as divalent cations [137]. These species are then less available to contribute to the Ag NPs destabilization, increasing indirectly their stability.…”
Section: Fate Of Silver Nanoparticles In the Environmentmentioning
confidence: 99%
“…Fortunately, much of the ion coordination activity in NOM has been shown to occur through several key functional groups, including primarily carboxylate groups but also alcohol/phenol groups [86,87]. A recent review paper outlines current understanding of the important effect of cation bridging in NOM aggregation [87].…”
Section: Simulations Of Natural Organic Matter (Nom) and Nom-mineral mentioning
confidence: 99%
“…Fortunately, much of the ion coordination activity in NOM has been shown to occur through several key functional groups, including primarily carboxylate groups but also alcohol/phenol groups [86,87]. A recent review paper outlines current understanding of the important effect of cation bridging in NOM aggregation [87]. Indeed, molecular modeling studies of NOM-mineral interfacial systems indicates that cation bridging between NOM and surface sites predominates over direct interactions between NOM functional groups and the surface [88,89], although humic substances can adsorb directly to clay surfaces in confined interlayer environments [90].…”
Section: Simulations Of Natural Organic Matter (Nom) and Nom-mineral mentioning
confidence: 99%