Functionalization and post-functionalization: a step towards polyoxometalate-based materials

Abstract: Polyoxometalates (POMs) have remarkable properties and a great deal of potential to meet contemporary societal demands regarding health, environment, energy and information technologies. However, implementation of POMs in various functional architectures, devices or materials requires a processing step. Most developments have considered the exchange of POM counterions in an electrostatically driven approach: immobilization of POMs on electrodes and other surfaces including oxides, embedding in polymers, incorp… Show more

“…This study provides the first example of catalytic synthesis from aromatic diamines and CO 2 . The TBA 2 [WO 4 ] catalyst shows a concerted action on both CO 2 and the substrates, and the hydrogen bonding interaction between [WO 4 ] 2− and diamine and formation of Lewis base-CO 2 adducts have been directly observed using 1 H, 13 C, and 183 W NMR spectroscopy. The proposed reaction mechanism for CO 2 fixation with TBA 2 [WO 4 ] is shown in Figure 10.…”

“…Isopolyoxometalates are often utilized as photocatalysts and building units for the synthesis of POM-based functional assemblies [12][13][14]17,35]. In addition, their basic properties have been extensively studied due to their simple compositions and structures.…”

Base Catalysis by Mono- and Polyoxometalates

“…This study provides the first example of catalytic synthesis from aromatic diamines and CO 2 . The TBA 2 [WO 4 ] catalyst shows a concerted action on both CO 2 and the substrates, and the hydrogen bonding interaction between [WO 4 ] 2− and diamine and formation of Lewis base-CO 2 adducts have been directly observed using 1 H, 13 C, and 183 W NMR spectroscopy. The proposed reaction mechanism for CO 2 fixation with TBA 2 [WO 4 ] is shown in Figure 10.…”

“…Isopolyoxometalates are often utilized as photocatalysts and building units for the synthesis of POM-based functional assemblies [12][13][14]17,35]. In addition, their basic properties have been extensively studied due to their simple compositions and structures.…”

Base Catalysis by Mono- and Polyoxometalates

“…12,13 In addition, the rectangular lacuna in MKAs represents an ideal binding site wherein to anchor a variety of functional moieties and/or linkers: [14][15][16][17] in practice, this somewhat broadens MKAs' versatility with respect to that of PKAs. Notable examples are organic tethers to chromophores; 12,18,19 to (photo)catalytic centres; 13,[20][21][22] to other solid supports such as electrodes, silica, and metal oxides; 9,19,[23][24][25][26] and to distal metal chelating centres, for subsequent incorporation in co-ordination polymers.…”

Simulating the Favorable Aggregation of Monolacunary Keggin Anions

“…Mixed addenda POMs have been examined previously by many research groups in an effort to access a range of electronic properties of interest to catalysis, energy storage, and chemical sensing [1,2,5,11]. By changing the ratio of the transition metals, one may tailor the reactivity and stability of mixed addenda POMs for a particular application.…”

“…Introduction P olyoxometalates (POMs) are a class of inorganic materials that are of interest for a variety of applications because of their remarkable redox, photochemical, and magnetic properties [1][2][3][4][5][6][7][8][9]. The Keggin POM [10], a class of stable, redox-active, triply-charged anions comprised of a metal-oxide cage structure (M 12 O 36 ; M = early transition metal) with an internal XO 4 n-group (typically X = Si, P; n = 4, 3, respectively), is one of the most widely studied POM systems.…”

Gas-Phase Fragmentation Pathways of Mixed Addenda Keggin Anions: PMo_12-nW_nO₄₀^3– (n = 0–12)