A comprehensive comparison of transition-metal and actinyl polyoxometalates.

@article{Nyman2012ACC,
  title={A comprehensive comparison of transition-metal and actinyl polyoxometalates.},
  author={May Nyman and Peter C. Burns},
  journal={Chemical Society reviews},
  year={2012},
  volume={41 22},
  pages={
          7354-67
        }
}
While the d(0) transition-metal POMs of Group V (V(5+), Nb(5+), Ta(5+)) and Group VI (Mo(6+), W(6+)) have been known for more than a century, the actinyl peroxide POMs, specifically those built of uranyl triperoxide or uranyl dihydroxidediperoxide polyhedra, were only realized within the last decade. While virtually every metal on the Periodic Table can form discrete clusters of some type, the actinyls are the only-in addition to the transition-metal POMs- whose chemistry is dictated by the… 
View on PubMed
ir.library.oregonstate.edu
235 Citations
Highly Influential Citations
2
Background Citations
9
Methods Citations
1

235 Citations

Citation Type

Citation Type

Trends and new directions in the crystal chemistry of actinide oxo-clusters incorporated in polyoxometalates
The present highlight article deals with the incorporation of actinide cations into polyoxometalate (POM) moieties since the first example was structurally characterized and described in the
Strategic capture of the {Nb7} polyoxometalate.
TLDR
These Nb-POMs illustrate a reaction pathway for control over speciation that is driven by countercations (Li+) rather than pH, and transects all major metal groups of the periodic table.
Recent progress in polyoxoniobates decorated and stabilized via transition metal cations or clusters
Transition metal (TM) cations and clusters have been widely used to functionalize polyoxometalates (POMs) of tungsten, molybdenum and vanadium due to their acidic nature, which made them compatible
Observing assembly of complex inorganic materials from polyoxometalate building blocks.
TLDR
This combined solid state and solution study reveals in great detail the growth of a complex material from discrete monomeric building blocks.
Evolution of actinyl peroxide clusters U28 in dilute electrolyte solution: exploring the transition from simple ions to macroionic assemblies.
TLDR
These clusters are the smallest macroions reported to date that form blackberry structures in solution, therefore, can be treated as valuable models for investigating the transition from simple ions to macroions.
Synthesis of a 6-nm-Long Transition-Metal-Rare-Earth-Containing Polyoxometalate.
TLDR
An extremely long ribbon-shaped polyoxometalate octamer, with a maximum length of ca.
Aqueous tantalum polyoxometalate reactivity with peroxide.
TLDR
Small and wide-angle and total X-ray scattering strongly indicate that peroxide promotes linking of the hexameric tantalate clusters, rather than terminating and capping the clusters, as observed for the niobate analogue.
Hybrid Materials of the f-Elements Part II: The Uranyl Cation
Hybrid Uranyl-Phosphonate Coordination Nanocage.
TLDR
A general synthetic approach for designing uranyl coordination cages, constructed through a temperature-dependent and solvent-driven self-assembly, showing characteristic vibronically coupled charge-transfer based emission.
Dynamics of uranyl peroxide nanocapsules.
TLDR
These studies on two select cluster geometries, those containing 24 and 28 uranyl polyhedra, respectively, show that the capsules-like clusters are not rigid entities, rather, the internal alkalis both have mobility inside the capsules, as well as exchange with species in the media in which they are dissolved.
...
1
2
3
4
5
...

References

SHOWING 1-10 OF 87 REFERENCES
Self-assembly of alkali-uranyl-peroxide clusters.
TLDR
It is surmised that the slow crystallization allows for direct bonding of alkali metals to the uranyl-peroxide oxygen ligands that is observed in (2), and its Rb and Cs-substituted derivatives.
Polyoxoniobate chemistry in the 21st century.
  • M. Nyman
  • Chemistry
    Dalton transactions
  • 2011
TLDR
This annotated compilation of recent PONb literature has revealed the most logical and promising directions for the continued growth of the most challenging of polyoxometalate chemistries.
The U28 Nanosphere: What's Inside?
Polyoxometalate-like behavior of actinyl-peroxide anions in aqueous alkaline media has been recently unveiled in the form of more than 20 reported crystal structures of clusters, each with 20–60
On the origin of the cation templated self-assembly of uranyl-peroxide nanoclusters.
TLDR
The inherent bent structure of a U-O(2)-U model dimer is demonstrated and justified through the analysis of its electronic structure, as well as of the inherent curvature of the four-, five-, and six-uranyl macrocyles.
Protonation, Oligomerization, and Condensation Reactions of Vanadate(V), Molybdate(vi), and Tungstate(vi)
Oxygen-isotope exchange rates for three isostructural polyoxometalate ions.
TLDR
Interestingly, these nanometer-size structures seem to manifest the same general averaged amphoteric chemistry that is familiar for other reactions affecting oxides in water, including interface dissolution by proton- and hydroxyl-enhanced pathways.
Solid-state structural characterization of a rigid framework of lacunary heteropolyniobates.
TLDR
Two-dimensional solid-state 23Na multiple-quantum magic angle spinning (MAS) NMR of 1 reveals five distinctive chemical and structural environments for sodium, which agrees with the crystallographic data.
Uranium pyrophosphate/methylenediphosphonate polyoxometalate cage clusters.
TLDR
Here the bent configurations of four- and five-membered rings of uranyl peroxide hexagonal bipyramids are bridged by pyrophosphate or methylenediphosphonate, creating eight chemically complex cage clusters with specific topologies.
Distinctly different reactivities of two similar polyoxoniobates with hydrogen peroxide.
TLDR
Niobium oxides are used as photocatalysts and also used to sequester radionuclides from waste, and herein it is observed that although the decaniobate anion rapidly picks up peroxide, the peroxodecaniabate clusters can dissociate over time and yield the perxohexaniobates species, and sometimes in the presence of reformed and peroxy-free decaniOBate ion.
A new structural family of heteropolytungstate lacunary complexes with the uranyl, UO22+, cation
The reaction of UO22+ with the trivacant lacunary polyoxometalate anions, [SbW9O33]9− and [TeW9O33]8−, yields the novel isostructural complexes [(UO2)2(H2O)2(SbW9O33)2]14− (1) and
...
1
2
3
4
5
...