forthcoming articles

In a new example of a previously reported charge-stabilized framework involving diprotonated metformin, decavanadate, and waters of hydration, monoprotonated guanylurea and biguanide are substitutionally disordered in the 3-D network's spaces. This disorder necessitates two charge balance situations in the network. Biguanide has seven concerted hydrogen-bonds to the decavanadate anion, suggesting a biguanide-decavanadate synthon similarto the previously reported guanylurea-decavanadate synthon.

The magnetic structure of LuCrO₃ has G-type antiferromagnetic ordering, with Cr³⁺ moments approximately aligned along the b axis, and a subtle canting along the c direction. The Néel temperature increases from 112.6 K to 116.0 K upon external pressure (up to 1.45 GPa).

Comment on the use of irreducible representations to denote tilting of octahedra in perovskites.

Powder diffraction finds application in phase identification, quantitative analysis and microstructure characterization. Conventional d-spacing and relative intensity data found in the Powder Diffraction File database are enhanced with the inclusion of raw diffraction data, especially in characterizing samples with poor crystallinity, disorder, and interesting microstructure.

The reactions of Cu(ClO₄)₂·6H₂O and L′H in a variety of solvents have provided access to 12 solvatomorphs of the general formula [Cu(ClO₄)₂(LH)₄]·x(solvent); the effect of the solvents on the packing of the complexes is critically discussed.

An algorithm is proposed for determining the orientational relationships and crystal unit-cell parameters of thin films using a laboratory X-ray diffractometer and stereographic projections. It is illustrated by the treatment of experimental data obtained for yttrium orthoferrite YFeO₃ films on single crystalline sapphire (Al₂O₃) substrates.

The conformational energies and crystal energy landscapes for molecules XXXI and XXXII from the seventh blind test of crystal structure prediction are investigated with a variety of electronic structure methods. Whereas molecule XXXI can be modeled relatively straightforwardly, molecule XXXII proves challenging even for state-of-the-art quantum chemistry techniques.