Materials Research Letters (Feb 2021)

Synthesis, characterization and first principle modelling of the MAB phase solid solutions: (Mn1-xCrx)2AlB2 and (Mn1-xCrx)3AlB4

  • Luke A. Hanner,
  • Hussein O. Badr,
  • Martin Dahlqvist,
  • Sankalp Kota,
  • David Raczkowski,
  • Johanna Rosen,
  • Michel W. Barsoum

DOI
https://doi.org/10.1080/21663831.2020.1845834
Journal volume & issue
Vol. 9, no. 2
pp. 112 – 118

Abstract

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The MAB phases are a family of layered ternary transition metal borides, with atomically laminated crystal structures comprised of transition metal boride (M-B) layers interleaved by single, or double, Al (A) layers. Herein, density functional theory is implemented to evaluate the thermodynamic stability of disordered (Mn1-xCrx)2AlB2, and disordered and ordered (Mn1-xCrx)3AlB4 quaternaries. The (Mn1-xCrx)2AlB2 solid solutions were synthesized over the entire range of substitution. A (Mn1-xCrx)3AlB4 solid solution was produced, on the base of Cr3AlB4, to form (Mn0.33Cr0.66)3AlB4. Powder X-ray diffraction shows lattice parameter shifts and unit cell expansions indicative of successful solid solution formations.

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