Hydrolysis to the first dumbbell-like high-nuclearity bismuth-oxo cluster [Bi12(μ3-OH)4(μ2-OH)2(μ3-O)8(μ4-O)2(NO3)6]4+: Synthesis, structure and spectroscopic characterizations

Dimorphism of [Bi2O2(OH)](NO3) - the ordered Pna21 structure at 100 K

The re-investigation of [Bi2O2(OH)](NO3), dioxidodibismuth(III) hydroxide nitrate, on the basis of single-crystal X-ray diffraction data revealed an apparent structural phase transition of a crystal structure determined previously (space group Cmc21 at 173 K) to a crystal structure with lower symmetry (space group Pna21 at 100 K). The Cmc21 → Pna21 group-subgroup relationship between the two crystal structures is klassengleiche with index 2. In contrast to the crystal structure in Cmc21 with orientational disorder of the nitrate anion, disorder does not occur in the Pna21 structure. Apart from the disorder of the nitrate anion, the general structural set-up in the two crystal structures is very similar: [Bi2O2]2+ layers extend parallel to (001) and alternate with layers of (OH)- anions above and (NO3)- anions below the cationic layer. Whereas the (OH)- anion shows strong bonds to the BiIII cations, the (NO3)- anion weakly binds to the BiIII cations of the cationic layer. A rather weak O-H⋯O hydrogen-bonding inter-action between the (OH)- anion and the (NO3)- anion links adjacent sheets along [001].

Anionic Bismuth-Oxido Carboxylate Clusters with Transition Metal Countercations

Six new anionic bismuth-oxido clusters containing trifluoroacetate ligands were prepared. These include two new Bi₆O₈ clusters: [M(NCMe)₂(H₂O)₄]₃[Bi₆(μ₃-O)₄(μ₃-OH)₄(CF₃CO₂)₁₂] with an octahedral Bi₆O₄(OH)₄ core (M = Ni, 1a; Co, 1b) and four Bi₄O₂ clusters, {[Co(NCMe)₆][Bi₄(μ₃-O)₂(CF₃CO₂)₁₀]}_n (2a), {[Co{HC(MeCO)₂(MeCNH)}₂][Bi₄(μ₃-O)₂(CF₃CO₂)₁₀]·2[CF₃CO₂]·2[CF₃CO₂H]·2[H₂O]}_n (2b), {[Cu(NCMe)₄]₂[Bi₄(μ₃-O)₂(CF₃CO₂)₁₀]·2[CF₃CO₂H]}_n (2c), and {[Me₄N]₂[Bi₄(μ₃-O)₂(CF₃CO₂)₁₀]·2[CF₃CO₂H]}_n (2d). These are among the first bismuth-oxido anionic clusters synthesized, and the first to have transition metal countercations. The Bi₆O₈ anion in 1a and 1b is a high-symmetry octahedron. Additionally, two of the new Bi₄O₂ clusters are arranged in 1D polymeric structures via bridging carboxylate ligands. The cation in compound 2c had not been previously characterized and was also observed in the synthesis of [Co{HC(MeCO)₂(MeCNH)}₂][Bi(NO₃)₆] (3). The new compounds were characterized using single crystal X-ray crystallography and elemental analysis.

Mechanochemical synthesis and characterisation of cocrystals and metal organic compounds

The mechanochemical synthesis of two model compounds, a metal organic framework (H2Im)[Bi(1,4-bdc)2] (bdc = benzene dicarboxylate, H2Im = imidazole cation)) and a cocrystal (carbamazepine : indometacin 1 : 1) were followed ex situ using a combination of two analytical methods. Powder X-ray diffraction (XRD) and Raman spectroscopy data were evaluated for the synthesis of the metal organic framework. The XRD measurements and REM images were analysed for the synthesis of the cocrystal. The measurements revealed that both model compounds were synthesised within minutes. The metal organic framework (H2Im)[Bi(1,4-bdc)2] is synthesised via an intermediate structure. The cocrystal carbamazepine : indometacin 1 : 1 is formed within a few seconds. The crystallite size decreases during the further milling treatment.