Chemical design of monolayer altermagnets

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• Vacancy-driven inverse Lieb geometry: A general route to $d$-wave altermagnetism in two dimensions cond-mat.str-el · 2026-04-12 · unverdicted · none · ref 4 · 2 links

  Vacancy-driven reconstruction of V2X2 monolayers creates an inverse Lieb network that realizes d-wave altermagnetism with (cos kx - cos ky) spin splitting and zero net magnetization.

• Intrinsic antiferromagnetic half-metal and topological phases from the ferrovalley states of the sliding bilayer altermagnets cond-mat.mtrl-sci · 2025-09-25 · conditional · none · ref 67

  Sliding bilayer altermagnets host antiferromagnetic half-metallicity and Chern insulator phases via spin-dependent interlayer hopping in ferrovalley states, demonstrated in V2OSSe by first-principles calculations.

• Sliding-induced ferrovalley polarization and possible antiferromagnetic half-metal in bilayer altermagnets cond-mat.mtrl-sci · 2025-08-30 · unverdicted · none · ref 42

  Interlayer sliding in M2A2B and M2AA'B bilayer altermagnets induces ferrovalley polarization and antiferromagnetic half-metallicity, with Mo2O2O showing 0.31 eV valley splitting and V2SSeO as a candidate half-metal.

• Classification and design of two-dimensional altermagnets cond-mat.mtrl-sci · 2026-01-15 · accept · none · ref 97

  A review that classifies two-dimensional altermagnets via spin-group theory, lists materials with large spin splitting, and outlines design strategies for experimental realization.