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Where is the unpaired transition metal in substoichiometric diboride line compounds?

Justinas Pališaitis, Martin Dahlqvist, A. J. Hall, Jimmy Thörnberg, Ingemar Persson, Nils Nedfors, Lars Hultman, J. E. Greene, I. Petrov, Johanna Rosén, Per O. Å. Persson

2020Acta Materialia41 citationsDOIOpen Access PDF

Abstract

The atomic structure and local composition of high quality epitaxial substoichiometric titanium diboride (TiB1.9) thin film, deposited by unbalanced magnetron sputtering, were studied using analytical high-resolution scanning transmission electron microscopy, density functional theory, and image simulations. The unpaired Ti is pinpointed to inclusion of Ti-based stacking faults within a few atomic layers, which terminates the {11¯00} prismatic planes of the crystal structure and attributed to the absence of B between Ti planes that locally relaxes the structure. This mechanism allows the line compound to accommodate off-stoichiometry and remain a line compound between defects. The planar defects are embedded in otherwise stoichiometric TiB2 and are delineated by insertion of dislocations. An accompanied decrease in Ti-Ti bond lengths along and across the faults is observed.

Topics & Concepts

Materials scienceCrystallographyStoichiometryDislocationStackingDensity functional theoryStacking faultTitaniumTitanium diborideScanning transmission electron microscopyEpitaxyCondensed matter physicsHigh-resolution transmission electron microscopyTransmission electron microscopyCrystal structureCrystal (programming language)Composite materialMetallurgyNanotechnologyLayer (electronics)Computational chemistryNuclear magnetic resonancePhysical chemistryChemistryProgramming languageCeramicComputer sciencePhysicsMetal and Thin Film MechanicsBoron and Carbon Nanomaterials ResearchMXene and MAX Phase Materials
Where is the unpaired transition metal in substoichiometric diboride line compounds? | Litcius