Pamela J. Hagrman

TL;DR: A blueprint for the design of oxide materials is provided by nature and members of the ever-expanding class of polymeric coordination complex cations, novel molybdenum oxide substructures, such as the one shown, may be prepared.

TL;DR: The hydrothermal reactions of MoO(3), tetrapyridylporphyrin (tpypor), water, and the appropriate M(II) precursor yield the first examples of three-dimensional framework materials constructed from metal oxide and porphyrin subunits.

TL;DR: In der bestandig wachsenden Klasse polymerer Komplexkationen ermoglicht die Herstellung von Molybdanoxiden with neuartigen sub-strukturen (siehe das im Bild gezeigte Beispiel).

TL;DR: In this article, a review of the structural design of vanadium oxide solids is presented, focusing on the association of an organic component, acting as a ligand, tether, or structure directing moiety, with the inorganic framework of the solid to provide unique composites.

TL;DR: The influence of organonitrogen ligands on the network structure of molybdenum oxides was examined by preparing three new molyBdenum oxide phases by reducing MoO3(4,4'-bpy)0.5, which retains the layer motif of corner-sharing MoO5N octahedra but with distinct sinusoidal ruffling in contrast to planar layers of [MoO3