Issue 4, 2012

Constructing nanosized polyanions with diverse structures by the self-assembly of W/Nb mixed-addendum polyoxometalate and lanthanide ion

Abstract

The reaction activity of W/Nb mixed-addendum POMs towards lanthanide has been demonstrated by experimental and computational methods. Utilizing the nucleophilicity of Ot(Nb) (Ot: terminal oxygen), six Nb–O–Eu bridge-based POMs with different structures have been isolated by the reactions of {GeW9Nb3O40} and lanthanide ions Eu3+ under different conditions, including a dimmer Cs3K4[(Ge2W18Nb6O78)Eu(H2O)4]·23H2O (1), three tetramers Cs8K9[(Ge4W36Nb12O156)Eu(H2O)3]·25H2O (2), Cs12K2[Cs(GeW9Nb3O40)4(SO4)Eu5(H2O)36]·61H2O (3), Cs12.5K1.5[Cs2(GeW9Nb3O40)4Eu4(H2O)22]·28H2O (4), a one-dimensional compound Cs11.5[(GeW9Nb3O40)4Eu5.5(H2O)26]·24H2O (5), and a two-dimensional compound CsK2.25[GeW9Nb3O40Eu1.25(H2O)12]·8H2O (6). In the polyanions of 1–6 (1a–6a), all the EuIII atoms are selectively bonded to Ot(Nb) of {GeW9Nb3O40} fragments, indicating the high nucleophilicity of Ot(Nb). The Density Functional Theory (DFT) calculation on anion [GeW9Nb3O40]7 further approves this. Comparing with the (Nb)O–Eu bonds, the formation of Nb–O–Nb bridges needs stronger acidity. Thus, weaker acidity (pH>1.5) is favorable to the former. The Cs+ cation plays an important templating role in the formation and stability of polyanions 1a–5a. The photoluminescence behaviors of 1 and 2 have been investigated and compound 1 exhibits selective luminescence response to malonic acid.

Graphical abstract: Constructing nanosized polyanions with diverse structures by the self-assembly of W/Nb mixed-addendum polyoxometalate and lanthanide ion

Supplementary files

Article information

Article type
Paper
Submitted
19 Sep 2011
Accepted
27 Oct 2011
First published
08 Dec 2011

CrystEngComm, 2012,14, 1397-1404

Constructing nanosized polyanions with diverse structures by the self-assembly of W/Nb mixed-addendum polyoxometalate and lanthanide ion

S. Li, S. Liu, N. Ma, Y. Qiu, J. Miao, C. Li, Q. Tang and L. Xu, CrystEngComm, 2012, 14, 1397 DOI: 10.1039/C1CE06225E

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