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Literature DB >> 25164942

Size-selective crystallization of homochiral camphorate metal-organic frameworks for lanthanide separation.

Xiang Zhao¹, Matthew Wong, Chengyu Mao, Thuong Xinh Trieu, Jian Zhang, Pingyun Feng, Xianhui Bu.

Abstract

Lanthanides (Ln) are a group of important elements usually found in nature as mixtures. Their separation is essential for technological applications but is made challenging by their subtly different properties. Here we report that crystallization of homochiral camphorate metal-organic frameworks (MOFs) is highly sensitive to ionic radii of lanthanides and can be used to selectively crystallize a lanthanide element into predesigned MOFs. Two series of camphorate MOFs were synthesized with acetate (Type 1 with early lanthanides La-Dy) or formate (Type 2 with late lanthanides Tb-Lu and Y) as the auxiliary ligand, respectively. The Ln coordination environment in each type exhibits selectivity for Ln(3+) of different sizes, which could form the basis for a new cost-effective method for Ln separation.

Entities: Chemical

Year: 2014 PMID： 25164942 DOI： 10.1021/ja5067306

Source DB: PubMed Journal: J Am Chem Soc ISSN： 0002-7863 Impact factor: 15.419

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Cited

8 in total

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Journal: Nat Commun Date: 2017-05-26 Impact factor: 14.919

3. Rare earth separations by selective borate crystallization.

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Journal: Nat Commun Date: 2017-03-14 Impact factor: 14.919

4. A supramolecular lanthanide separation approach based on multivalent cooperative enhancement of metal ion selectivity.

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Journal: Nat Commun Date: 2018-02-07 Impact factor: 14.919

Size-selective crystallization of homochiral camphorate metal-organic frameworks for lanthanide separation.

1. Crystal structure and fluorescence properties of catena-poly[[(2,2'-bi-1H-imidazole-κ²N,N')cadmium]-di-μ-chlorido].

2. Rationally designed mineralization for selective recovery of the rare earth elements.

3. Rare earth separations by selective borate crystallization.

4. A supramolecular lanthanide separation approach based on multivalent cooperative enhancement of metal ion selectivity.

5. Direct Recovery of the Rare Earth Elements Using a Silk Displaying a Metal-Recognizing Peptide.

6. Nd(III) and Gd(III) Sorption on Mesoporous Amine-Functionalized Polymer/SiO₂ Composite.

7. Intralanthanide Separation on Layered Titanium(IV) Organophosphate Materials via a Selective Transmetalation Process.

8. The origins of binding specificity of a lanthanide ion binding peptide.