Design Strategies for Luminescent Titanocenes: Improving the Photoluminescence and Photostability of Arylethynyltitanocenes.

Complexes that undergo ligand-to-metal charge transfer (LMCT) to d metals are of interest as possible photocatalysts. CpTi(CPh) (where CPh = phenylethynyl) was reported to be weakly emissive in room-temperature (RT) fluid solution from its phenylethynyl-to-Ti LMCT state but readily photodecomposes. Coordination of CuX between the alkyne ligands to give CpTi(CPh)CuX (X = Cl, Br) has been shown to significantly increase the photostability, but such complexes are not emissive in RT solution.

Single crystal neutron and magnetic measurements of RbMn(VO)CO and KCo(VO)CO with mixed honeycomb and triangular magnetic lattices.

Two new alkali vanadate carbonates with divalent transition metals have been synthesized as large single crystals via a high-temperature (600 °C) hydrothermal technique. Compound I, Rb2Mn3(VO4)2CO3, crystallizes in the trigonal crystal system in the space group P3[combining macron]1c, and compound II, K2Co3(VO4)2CO3, crystallizes in the hexagonal space group P63/m. Both structures contain honeycomb layers and triangular lattices made from edge-sharing MO6 octahedra and MO5 trigonal bipyramids, respectively.

Alkali Transition-Metal Molybdates: A Stepwise Approach to Geometrically Frustrated Systems.

Materials with triangular arrangements of transition metal ions are of great interest for their complex magnetism resulting from geometric frustration. This paper describes the stepwise formation of kagome lattices of open shell transition-metal ions from half-delta chains to delta/sawtooth chains, and finally kagome nets. The systems can be viewed as a testbed for magnetic studies since a variety of spin states can be introduced across the same structure type, and progress through increasing levels of structural complexity and dimensionality.

Two halide-containing cesium manganese vanadates: synthesis, characterization, and magnetic properties.

Two new halide-containing cesium manganese vanadates have been synthesized by a high-temperature (580 °C) hydrothermal synthetic method from aqueous brine solutions. One compound, CsMn(VO)Cl, (1) was prepared using a mixed cesium hydroxide/chloride mineralizer, and crystallizes in the polar noncentrosymmetric space group Cmm2, with a = 16.7820(8) Å, b = 8.

Three Unique Barium Manganese Vanadates from High-Temperature Hydrothermal Brines.

Three new barium manganese vanadates, all containing hexagonal barium chloride layers interpenetrated by [VO] groups, were synthesized using a high-temperature (580 °C) hydrothermal method. Two of the compounds were prepared from a mixed BaCl/Ba(OH) mineralizer, and the third compound was prepared from BaCl mineralizer. An interesting structural similarity exists between two of the compounds, BaMn(VO)(OH)Cl and BaMn(VO)(VO)O(OH)Cl.