Abstract: For the first time, oriented arrays of inorganic particles have been synthesized in a Langmuir-Blodgett (LB) film. Particles of MX2, where M = Cd and Mn, and X = I, Br, and Cl, are formed by the reaction of a deposited cadmium or manganese arachidate LB film with the corresponding gaseous hydrogen halide. The reactions are monitored by attenuated total reflectance FT-infrared spectroscopy which shows that they go to completion and that the organic LB film remains crystalline afterward. X-ray photoelectron spectroscopy and transmission electron diffraction are used to identify the metal halides and show that in each case only one inorganic species is formed. Transmission electron diffraction shows that CDI2 particles are formed exclusively with their [001] crystal axes perpendicular to the plane of the LB film and for domain sizes up to several microns discrete particles have the same in-plane orientation. CdBr2 and CDCl2 particles are each observed to form with a mixture of two discrete orientations: [001] axis parallel or [001] axis perpendicular to the LB plane. MnI2, MnBr2, and MnCl2 particles are also oriented with their [001] axes either parallel or perpendicular to the plan but to a lesser degree than the cadmium halides. In all of the examples, domains are observed where arrays of particles exhibit common in-plane orientations. It is proposed that the organized organic matrix is responsible for orienting the inorganic particles, and the potential lattice matching between the inorganic particles and the organic matrix is discussed. In a separate project, an X-ray photoelectron spectroscopic investigation was performed on the novel one-dimensional magnetic chain compound tetramethyammonium nickelnitrite. This material was synthesized in our lab and has an interesting crystal structure in which there are two chemically distinct nickel centers. The results of experiments aimed at resolving those two nickel centers are discussed.
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