Double Trigonal Pyramidal {SeO3} Groups Bridged 2-Picolinic Acid Modified Cerium-Inlaid Polyoxometalate Including Mixed Selenotungstate Subunits for Electrochemically Sensing Ochratoxin A

An organic-inorganic hybrid trigonal pyramidal {SeO₃} group, bridged cerium-inlaid polyoxometalate (POM) Na₁₆[Se₂Ce₄(H₂O)₈W₄(HPIC)₄O₁₀][B-β-SeW₈O₃₀]₂[Se₂W₁₂O₄₆]₂·60H₂O (1) (HPIC = 2-picolinic acid), containing two disparate selenotungstate (ST) building blocks was synthesized by a one-step assembly strategy, which is established by two asymmetric sandwich-type {[Ce₂(H₂O)₄W₂(HPIC)₂O₄][B-β-SeW₈O₃₀][Se₂W₁₂O₄₆]}^10- moieties joined by double trigonal pyramidal {SeO₃} groups. Its outstanding structural trait is that it contains two types of ST building blocks, Keggin-type [B-β-SeW₈O₃₀]^8- and Dawson-like [Se₂W₁₂O₄₆]^12-, which are extremely rare in ST chemistry. Remarkably, [Se₂W₁₂O₄₆]^12- is first obtained in lanthanide-inlaid STs. Furthermore, 1@PPy conductive film (PPy = polypyrrole) was prepared by electrochemical polymerization and served as the electrode material, and then nano-gold particles (NGPs) were deposited on the surface of 1@PPy conductive film by an electrochemical deposition method in order to immobilize the aptamer of ochratoxin A. With the help of exonuclease I (EN I), the oxidation peak of the metalized Ag works as the detection signal to achieve the detection of ochratoxin A (OTXA). This study offers an available approach for creating organic-inorganic hybrid heteroatom-bridged lanthanide-inlaid POMs and reveals the likelihood of extending heteroatom-bridged lanthanide-inlaid POMs into electrochemical biosensing applications.

Pentadecanuclear Fe-Containing Polyoxometalate Catalyst for Visible-Light-Driven Generation of Hydrogen

The structurally new, carbon-free pentadecanuclear Fe-containing polyoxometalate, Na₂₁[NaFe₁₅(OH)₁₂(PO₄)₄(A-α-SiW₉O₃₄)₄]·85H₂O (Na₂₁-Fe₁₅P₄(SiW₉)₄), was synthesized using a facile one-pot, solution-based synthetic approach and systematically characterized by various spectroscopic techniques. Single-crystal X-ray diffraction reveals that the title complex is composed of two [Fe₄(A-α-SiW₉O₃₄)] fragments and two [Fe_3.5(A-α-SiW₉O₃₄)] fragments stabilized by four PO₄ linkers in a tetrameric style with idealized T_d point group symmetry. When coupling with (4,4'-ditert-butyl-2,2'-dipyridyl)-bis(coumarin)-iridium(III) hexafluorophosphate ([Ir(coumarin)₂(dtbbpy)][PF₆]) photosensitizer and triethanolamine (TEOA) sacrificial electron donor, polyoxoanion Fe₁₅P₄(SiW₉)₄ effectively catalyzed hydrogen production with a minimally optimized TON of 986, which represents, to our knowledge, one of the highest values among known Fe-substituted POM-catalyzed hydrogen production systems. Both a mercury-poisoning test and FT-IR characterizations proved the structural stability of Fe₁₅P₄(SiW₉)₄ catalyst under photocatalytic conditions. The photocatalytic mechanism of the present hydrogen-evolving system was investigated by time-solved luminescence and static emission quenching measurements.

Tubular polyoxoanion [(SeMo6O21)2(C2O4)3]10− and its transformations

Tubular [(SeMo₆O₂₁)₂(C₂O₄)₃]¹⁰⁻ polyoxoanion can be assembled from Na₂MoO₄/SeO₂/H₂C₂O₄ system. TBABr precipitates complexes of [Mo₆O₁₉]²⁻ and [β-Mo₈O₂₆Na₂(NO₃)]³⁻ from its aqueous solution. Speciation of [β-Mo₈O₂₆]⁴⁻ and [Mo₆O₁₉]²⁻ has been studied.

Two unusual nanosized Nd3+-substituted selenotungstate aggregates simultaneously comprising lacunary Keggin and Dawson polyoxotungstate segments

Two unique nanosized Nd³⁺-substituted selenotungstates Na₉K₈{[W₃Nd₂(H₂O)₃(NO₃)O₆](B-α-SeW₉O₃₃)₂(α-Se₂W₁₄O₅₂)}·35H₂O (1) and [H₂N(CH₃)₂]₇H₉Na₄{[W₂Nd₂(H₂O)₈O₆(OH)₂(β-Se₂W₁₄O₅₂)][W₃Nd₂(H₂O)₆O₇(B-α-SeW₉O₃₃)₂]₂}·84H₂O (2) were prepared by reacting NaSeO₃, Na₂WO₄·2H₂O with Nd(NO₃)₃·6H₂O in aqueous solution by controlling different cations and pH values. 1 was synthesized at pH = 4.3 in the presence of KCl, whereas 2 was synthesized at pH = 3.0 in the presence of [H₂N(CH₃)₂]·Cl. The most striking structural feature of 1 and 2 is the coexistence of vacant Keggin and Dawson segments in the polyoxoanion, which is extremely rare in the field of polyoxometalate chemistry. The trimeric polyoxoanion of 1 can be perceived as a fusion of one α-type tetravacant Dawson [α-Se₂W₁₄O₅₂]^14- unit and two trivacant Keggin [B-α-SeW₉O₃₃]^8- segments sealing a trigonal bipyramid pentanuclear [W₃Nd₂(H₂O)₃(NO₃)O₆]¹¹⁺ cluster, while the pentameric polyoxoanion of 2 can be described as one β-type tetravacant Dawson [β-Se₂W₁₄O₅₂]^14- fragment and four trivacant Keggin [B-α-SeW₉O₃₃]^8- segments anchoring a saddle-shaped [W₈Nd₆(H₂O)₂₀O₂₀(OH)₂]²⁴⁺ cluster. In addition, the measurements of catalytic oxidation of aromatic thioethers show that 2 as a catalyst possesses extremely outstanding catalytic performance under mild reaction conditions.

Preparations, Structures and Luminescence Properties of Penta-rare-earth Incorporated Tetravacant Dawson Selenotungstates and Their Ho3+ /Tm3+ Co-doped Derivatives

A family of penta-rare-earth incorporated tetravacant Dawson selenotungstates [H₂ N(CH₃ )₂ ]₁₀ H₃ [SeO₄ RE₅ (H₂ O)₇ (Se₂ W₁₄ O₅₂ )₂ ] ⋅ 40H₂ O [RE=Ho³⁺ (1), Er³⁺ (2), Tm³⁺ (3), Tb³⁺ (4)] were synthesized. It should be noted that a penta-RE [SeO₄ RE₅ (H₂ O)₇ ]¹¹⁺ central core connecting two tetra-vacant Dawson-type [Se₂ W₁₄ O₅₂ ]^12- subunits generates a dimeric assembly of [SeO₄ RE₅ (H₂ O)₇ (Se₂ W₁₄ O₅₂ )₂ ]^13- in the structures of 1-4. Meanwhile, a class of Ho³⁺ /Tm³⁺ co-doped derivatives based on 1 with a Ho³⁺ /Tm³⁺ molar ratio of 0.75:0.25-0.25:0.75 were also prepared and characterized by energy-dispersive spectroscopy (EDS) analyses. Moreover, their luminescence properties were systematically investigated, which indicate that Tm³⁺ ions can sensitize the emission of Ho³⁺ ions in the visible region and prolong the fluorescence lifetime of Ho³⁺ ions to some extent. Energy transfer from Tm³⁺ ions to Ho³⁺ ions was probed by time-resolved emission spectroscopy (TRES), and the CIE 1931 diagram has been applied to evaluate all possible luminescence colors.

Pt-Substituted polyoxometalate modification on the surface of low-cost TiO2 with highly efficient H2 evolution performance

In this study, Pt-substituted polyoxometalate was first modified on the surface of commercially available TiO₂, forming an efficient photocatalyst with high reactivity for hydrogen evolution. During the photocatalytic process, Pt-polyoxometalates not only increase the mobility rate of electrons but also improve the separation efficiency of photoinduced electrons and holes. After photoreduction, the in situ generated Pt⁰ species are anchored on the surface of polyoxometalate anion, which prevents further agglomeration. Then, the in situ formed Pt⁰ species and polyoxometalates synergistically promote the efficiency of photoinduced electron transfer from TiO₂ to the protons adsorbed on the Pt⁰ surface. Although the content of Pt⁰ in the nanocomposite is only 0.6%, the photocatalytic hydrogen production rate reaches 5.6 mmol g^-1 h^-1 and remains stable at 4.5 mmol g^-1 h^-1 after the continuous catalytic process. Due to the modification of TiO₂ by Pt-substituted polyoxometalate, this nanocomposite represents a practical model that possesses highly efficient photoelectric conversion performance. The presented work not only extends the family of new TiO₂-polyoxometalate-based materials but also takes a further step toward the practical application of commercial TiO₂ in photocatalytic hydrogen production.

Synthesis of two new copper-sandwiched polyoxotungstates and the influence of nuclear number on catalytic hydrogen evolution activity

Two hybrid inorganic–organic Cu^II-sandwiched POM were synthesized and they exhibit photocatalytic activity. This would guide us to prepared copper-substituted polyoxotungstate and apply them toward renew energy.

Confining Mo-activated CoSx active sites within MCM-41 for highly efficient dye-sensitized photocatalytic H2 evolution

Although transition-metal-based sulfides have been identified as efficient catalysts to replace expensive noble metal catalysts for photocatalytic H₂ evolution reaction (HER), their activities are still unsatisfied and could be further improved by controlling their microstructures and electronic structures. Herein, we present an effective strategy to confine highly active Mo-activated CoS_x (Mo-CoS_x) active sites within MCM-41 frameworks by sulfurization of Co-doped MCM-41 during the in situ photoreduction of [MoS₄]^2- in Erythrosin B-triethanolamine (ErB-TEOA) system. It is found that Co-MCM-41 offers not only abundant coordinatively unsaturated Co sites to be activated by Mo and S but also large surface area to effectively disperse the in situ generated amorphous Mo-CoS_x active sites. Under 520 nm irradiation, the most efficient Mo-CoS_x/MCM-41-100 (Si/Co = 100) catalyst exhibits ~7, 3, and 4 times higher H₂ evolution activity than free MoS_x, free Mo-CoS_x, and CoS_x/MCM-41-100, respectively, and an apparent quantum yield (AQY) of 12.3% for H₂ evolution. Furthermore, when Mo-CoS_x/MCM-41-100 was sensitized with a more stable fluorescein (FL) dye, the photocatalytic system shows a sustainable H₂ evolution activity in a 20 h reaction, showing the good stability of Mo-CoS_x/MCM-41-100 catalyst. This work provides a new insight into the design and development of highly active hybrid H₂ evolution catalysts based on transition metals for highly efficient and large-scale solar energy conversion to clean H₂ energy.

Self-Assembly of Nanoscale Lanthanoid-Containing Selenotungstates: Synthesis, Structures, and Magnetic Studies

The reaction of mid-lanthanide (Ln) ions with the preformed {Se₆W₃₉} precursor under reasonably acidic aqueous conditions in the presence of organic amine cations results in an unprecedented nanoscale lanthanide-functionalized polyoxotungstate family, which are rare examples of mid-lanthanide-containing selenotungstates. (C₄H₁₀NO)₉Na₃[Dy₃Se_3.5W₃₀O_107.5(H₂O)₁₀]·22H₂O (1) and (NH₄)₃(C₂H₈N)Na₂[Dy₄Se₆W₃₈O₁₃₂(H₂O)₂₆(OH)₆]·18H₂O (2) reveal a trimeric Keggin assembly and a cyclic {Se₆W₃₈}-based chain, respectively, whereas (NH₄)₄Na₈[Gd₄Se₆W₄₈O₁₆₆(H₂O)₂₀(OH)₄]·21H₂O (3) and (NH₄)₉(C₂H₈N)₄Na₅[Ln₆Se₆W₅₈O₂₀₂(H₂O)₂₀(OH)₄]·58H₂O (4; Ln = Gd, Tb, or Dy) are a few examples of polyoxometalates consisting of both classical Keggin and Wells-Dawson building blocks, and (NH₄)₄(C₂H₈N)₅Na₁₃[Ln₄Se₈W₅₆O₁₉₆(H₂O)_x(OH)₁₀]·40H₂O (5; Ln = Gd, Tb, or Dy; x = 12 for Gd and Tb and 10 for Dy) features the largest "pure" Wells-Dawson selenotungstate {Se₈W₅₆} bearing a length of 3.73 nm. A library of Se-templated species involving the first reported Keggin {α-SeW₈} and Wells-Dawson {α-Se₂W₁₆} building blocks as well as some decisive assembly factors during the synthesis is responsible for these architectures. All of the compounds were structurally characterized in the solid and solution by single-crystal X-ray diffraction, IR, thermogravimetric-differential thermal analysis, and electrospray ionization mass spectrometry. Magnetic properties indicate that 1 and 4-Dy show probable single-molecule-magnet behavior with obvious frequency dependence, whereas 3 and 4-Gd present the antiferromagnetic interactions between the Gd^III centers.

Three-in-one is really better: exploring the sensing and adsorption properties in a newly designed metal-organic system incorporating a copper(ii) ion

A 2-D copper(ii)-based coordination polymer, [Cu(SCN)(hmp)]_n CP (1), was crystallized via the slow evaporation method after the reaction of CuSO₄·5H₂O, 2-pyridinemethanol (hmpH), sodium thiocyanate and sodium hydroxide in water for functional applications. CP (1) was characterized via elemental analysis, FTIR, PXRD, magnetic, EPR, crystallographic and TGA studies. The crystal structure and EPR data confirmed a square pyramidal geometry around the Cu(ii) ions. The topological analysis revealed that CP 1 has a {6^{^}3} point symbol with a [6.6.6] extended point symbol and 3-c net, uninodal net having hcb and Shubnikov hexagonal plane net/(6,3) type of uncommon topology. The magnetic studies suggested the strong antiferromagnetic nature of CP (1). The fluorescence sensing property of CP (1) was investigated with different nitro aromatic compounds and hazardous metal ions. CP (1) demonstrated high selectivity and sensitivity towards nitrobenzene, even in the presence of other competitive nitro aromatics. In addition, CP (1) showed excellent selectivity and sensitivity toward Fe³⁺ over other metal ions. The possible detection mechanisms were proposed employing UV-visible and fluorescence spectroscopy and DFT calculations. CP (1) also showed excellent recyclability towards both analytes, and its initial intensity was almost regained after several washings. Moreover, CP (1) acted as an excellent adsorbent material for natural dyes with different charges and sizes, i.e., methylene blue (MB), methyl orange (MO) and Rhodamine-B. Furthermore, CP (1) was utilized repeatedly for the effective adsorption of MB from wastewater without significant loss in its adsorption capacity. Hence, the present CP (1) was designed to relate coordination chemistry with various functional applications of interest.

Polyoxometalate-supported metal carbonyl derivatives: from synthetic strategies to structural diversity and applications

This review aims to give an overview of the POM-supported metal carbonyl complexes obtained so far, focusing on their structural diversity and potential photochemical and catalytic properties.

An unprecedented {Ni14SiW9} hybrid polyoxometalate with high photocatalytic hydrogen evolution activity

A unique polyoxometalate with 14 nickel and 9 tungsten ions catalyses the reduction of protons under visible light.

A huge novel polyoxometalate-based cluster Fe10P4W32 exhibiting prominent electrocatalytic activity for the oxygen evolution reaction and third-order NLO properties

A novel high-nuclear POM-based cluster {Fe₁₀P₄W₃₂} consists of two inorganic blocks {P₂W₁₄} and four organic groups linked by ten iron ions.

Novel stable metal–organic framework photocatalyst for light-driven hydrogen production

A novel stable Dye-based Dy-MOF exhibits efficient photocatalytic activity for hydrogen generation.

Dimethyltin-functionalized cyclic selenotungstates based on {Se2W12} units

Two dimethyltin-functionalized cyclic selenotungstates based on {Se₂W₁₂} units were obtained, where (CH₃)₂Sn²⁺ moieties were first introduced into “pure” POMs wheels.

Long rigid ligand induced basket-type phosphomolybdate photo-/electro-catalytic materials

Two long rigid ligands are introduced into {P₆Mo₁₈O₇₃} systems, leading to two unique supramolecular hybrid assemblies, which show highly efficient catalytic activity for the degradation of refractory dye AP under UV light and bifunctional electrocatalytic behavior for the oxidation of dopamine (DA) and reduction of H₂O₂.

Efficient and robust photocatalysts based on {P2W18} modified by an Ag complex

Ag⁺ and the flexible ligand bimb were introduced into Dawson phosphomolybdate systems as linkage units to induce two fascinating 3-D inorganic–organic networks, which exhibit excellent electro- and photo-catalytic behavior.

The basket-type dimer layers based on tetra-electron reduced heteropoly blue directed by copper/nickel and strontium linkers

Two basket-type dimer layers have been prepared, which exhibit highly efficient catalytic ability for the degradation of typical dyes and bifunctional electrocatalytic behaviors.

Classical/Non-classical Polyoxometalate Hybrids

Two polyanions [Se^I V₂ Pd^II₄ W^VI₁₄ O₅₆ H]^11- and [Se^I V₄ Pd^II₄ W^VI₂₈ O₁₀₈ H₁₂ ]^12- are the first hybrid polyoxometalates in which classical (Group 5/6 metal based) and non-classical (late transition-metal based) polyoxometalate units are joined. Requiring no supporting groups, this co-condensation of polyoxotungstate and isopolyoxopalladate constituents also provides a logical link between POM-Pd^II coordination complexes and the young subclass of polyoxopalladates. Solid-state, solution, and gas-phase studies suggest interesting specific reactivities for these hybrids and point to several potential derivatives and functionalization strategies.

New self-assembly hybrid compounds based on arsenic–vanadium clusters and transition metal mixed-organic-ligand complexes

Seven compounds exhibiting novel structures constructed from arsenic–vanadium polyoxoanions and metal mixed-organic-ligand complexes have been synthesized and characterized.

The main progress over the past decade and future outlook on high-nuclear transition-metal substituted polyoxotungstates: from synthetic strategies, structural features to functional properties

In this article, we discuss the synthetic methodologies, structural diversities and relevant properties of the high-nuclear TMSPTs reported in the past decade.

Architectural chemistry of polyoxometalate-based coordination frameworks constructed from flexible N-donor ligands

Polyoxometalate-based coordination frameworks (POMCFs) constructed from flexible N-donor ligands can exhibit diverse properties and fascinating architectures, extending the families of material chemistry and structural chemistry.

Assembly of tetrameric dimethyltin-functionalized selenotungstates: from nanoclusters to one-dimensional chains

The first dimethyltin-functionalized selenotungstates have been isolated: nanocluster {Sn₇Se₈W₅₄} exhibiting photocatalytic H₂ evolution activity and chain {Sn₁₆Se₁₁W₅₆} contain {β-Se₂W₁₅} and {γ-Se₂W₁₄} building blocks, respectively.

High-efficiency photo- and electro-catalytic material based on a basket-like {Sr⊂P6Mo18O73} cage

The first 8-connected 2D layer based on basket-liked {Sr⊂P₆Mo₁₈O₇₃} cage was prepared, which exhibits high-efficient photodegradation ability for MB, RhB, and AP under visible and UV light, as well as bifunctional electrocatalytic behavior.

Efficient visible light-driven water oxidation catalyzed by an all-inorganic copper-containing polyoxometalate

We report the first copper-containing POM catalyst [Cu₅(OH)₄(H₂O)₂(A-α-SiW₉O₃₃)₂]¹⁰⁻(1) that catalyzes water oxidation under visible light. Multiple experiments confirm that1is an active and dominant catalyst during water oxidation.