Anion Separation with Metal–Organic Frameworks

Custelcean, Radu; Moyer, Bruce A.

doi:10.1002/ejic.200700018

Cited by 359 publications

(309 citation statements)

References 99 publications

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“…Strategies to selectively complex anions require the synthesis of hosts utilising one or more of a toolbox of interactions, 11 including hydrogen bonding donor groups, 10,12 π-acidic heteroarene scaffolds, [14][15][16][17] cationic groups for electrostatic interactions 11,18 and Lewis acidic moieties. 11 The investigation of metallo-supramolecular assemblies 5,[19][20][21][22] and coordination polymers [23][24][25] as anion receptors and for anion separation or sequestration has also received attention. In the context of developing such systems for anion inclusion, the use of a metallo-supramolecular species to bind anions can provide a number of advantages over neutral organic receptors.…”

Section: Introductionmentioning

confidence: 99%

Pre-organisation or a hydrogen bonding mismatch: silver(I) diamide ligand coordination polymers versus discrete metallo-macrocyclic assemblies

Kadir

Clements

Hanton

et al. 2012

Supramolecular Chemistry

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Pre-organisation or a hydrogen bonding mismatch; silver(I) diamide ligand coordination polymers versus discrete metallo-macrocyclic assemblies, Supramolecular Chemistry, 2012; 24(8) Retained rights the right to post on a non-commercial basis your "Author's Accepted Manuscript" (i.e., your manuscript in the form accepted for publication, revised after peer review; formerly a "postprint"), as a digital file on your own website for personal or professional use, or on your institution's network or intranet or website, or in a subject repository that does not offer content for commercial sale or for any systematic external distribution by a third party, provided that you do not use the PDF version of the article prepared by us and that you include any amendments or deletions or warnings relating to the article issued or published by us; in compliance with the embargo periods detailed below; and only with this acknowledgement:

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Section: Introductionmentioning

confidence: 99%

Pre-organisation or a hydrogen bonding mismatch: silver(I) diamide ligand coordination polymers versus discrete metallo-macrocyclic assemblies

Kadir

Clements

Hanton

et al. 2012

Supramolecular Chemistry

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“…The main conclusion was that 1 is able to extract the sulfate anion, SO 4 2-, in the presence of a large excess of the nitrate anion, NO 3 -, from a water solution overcoming the Hofmeister bias [5,6].…”

Section: Introductionmentioning

confidence: 99%

A theoretical study of the neutral and the double-charged cation of cyclo[8]pyrrole and its interaction with inorganic anions

2009

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“…M etal-organic frameworks (MOFs) have been recognized as an excellent platform for host-guest chemistry, which includes gas storage [1][2][3][4][5] , ion-exchange [6][7][8][9][10] , separation [11][12][13][14][15][16] , and so on [17][18][19][20][21][22][23] . The pore size of MOFs varies from a few angstroms to a few nanometres, making them ideal for incorporating species ranging from small gas molecules [24][25][26] and organic molecules 27,28 to large inorganic and organic species [29][30][31][32] .…”

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confidence: 99%

“…Although ion-exchange of small or bulky guest species into charged frameworks has been observed [6][7][8][9][10]31 , most of the studies were focused on the capture of specific metal ions 6,7 or the enhancement of gas-sorption capability 8 . There are also examples of liquid chromatography for organic dyes using Zn MOFs with neutral framework [33][34][35] , which are less likely to involve ion-exchange.…”

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confidence: 99%

“…Among reported MOFs, there are comparatively few permanently porous MOFs with positive framework (P-MOFs) 6,36,37 , whose rarity is also mirrored in other types of porous materials, including zeolites [38][39][40][41][42][43][44][45] . In addition, known P-MOFs often have low stability or small pore size that only permits the exchange of small inorganic anions 7,10 . Therefore, the construction of P-MOFs with tunable open architecture that will allow for the exchange and separation of bulky anions is highly desirable.…”

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confidence: 99%

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Selective anion exchange with nanogated isoreticular positive metal-organic frameworks

et al. 2013

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Crystalline porous materials, especially inorganic porous solids such as zeolites, usually have negative frameworks with extra-framework mobile cations and are widely used for cation exchange. It is highly desirable to develop new materials with positive frameworks for selective anion exchange and separation or storage and delivery. Recent advances in metalorganic framework synthesis have created new opportunities in this direction. Here we report the synthesis of a series of positive indium metal-organic frameworks and their utilization as a platform for the anion exchange-based separation process. This process is capable of size-or charge-selective ion-exchange of organic dyes and may form the basis for size-selective ion chromatography. Ion-exchange dynamics of a series of organic dyes and their selective encapsulation and release are also studied, highlighting the advantages of metal-organic framework compositions for designing host materials tailored for applications in anion separation and purification.

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Anion Separation with Metal–Organic Frameworks

Cited by 359 publications

References 99 publications

Pre-organisation or a hydrogen bonding mismatch: silver(I) diamide ligand coordination polymers versus discrete metallo-macrocyclic assemblies

Pre-organisation or a hydrogen bonding mismatch: silver(I) diamide ligand coordination polymers versus discrete metallo-macrocyclic assemblies

A theoretical study of the neutral and the double-charged cation of cyclo[8]pyrrole and its interaction with inorganic anions

Selective anion exchange with nanogated isoreticular positive metal-organic frameworks

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