Experimental and Theoretical Study on the Nonmagnetic Li/Mg Cosubstitution in the Gd 5- x (Li/Mg) x Ge 4 ( x = 1.04, 1.17, 1.53) System.

Three Li- and Mg-cosubstituted compounds in the Gd 5- x (Li/Mg) x Ge 4 ( x = 1.04(2), 1.17(2), 1.53(2)) system have been successfully prepared by conventional high-temperature reactions. According to powder and single-crystal X-ray diffraction analyses, all three compounds adopt a Gd 5 Si 4 -type phase with the orthorhombic Pnma space group (Pearson code o P 16, Z = 4) and six crystallographically independent atomic sites. The crystal structure can be described as a combination of two-dimensional Mo 2 FeB 2 -type ∞ 2 [Gd 2 (Li/Mg)Ge 2 ] layers and [Ge 2 ] dimers. Interestingly, as 64% of Li and 26% of Gd at the RE3 and RE2 sites, respectively, were exclusively substituted by Mg in Gd 3.47(1) Li 0.36(2) Mg 1.17(3) Ge 4 , the lattice parameter b was selectively shortened as a result of the RE3-Ge1 bond shrinkage in comparison to that in Gd 4 LiGe 4 , while lattice parameters a and c remained nearly intact. A series of theoretical calculations using the tight-binding linear muffin-tin orbital (TB-LMTO) method indicated that the reduction of the particular RE3-Ge1 bond distance in the title compounds could also be explained by an optimization of bonding based on the corresponding RE3-Ge1 crystal orbital Hamilton population (COHP) curve. Moreover, the specific site preference of Mg for the RE3 site was supported by both size-factor as well as electronic-factor criteria on the basis of the smallest atomic size and the highest electronegativity of Mg among the three cations. Therefore, the overall electronic structure was further interrogated by a density of states (DOS) analysis. The influence of nonmagnetic Li/Mg cosubstitution for the magnetic Gd atoms in the title Gd 5- x (Li/Mg) x Ge 4 system on the magnetic characteristics was also thoroughly studied by isofield magnetization at 100 Oe and 10 kOe and isothermal magnetization measurements at 4 K using two of the title compounds: Gd 3.83(1) Li 0.48 Mg 0.69(3) Ge 4 and Gd 3.47(1) Li 0.36(2) Mg 1.17(3) Ge 4 .