TY - DATA T1 - Boron-Induced Hydrogen Localization in the Novel Metal Hydride LaNi3BHx (x = 2.5−3.0) PY - 2005/06/13 AU - Yaroslav E. Filinchuk AU - Klaus Yvon UR - https://acs.figshare.com/articles/dataset/Boron_Induced_Hydrogen_Localization_in_the_Novel_Metal_Hydride_LaNi_sub_3_sub_BH_i_sub_x_sub_i_i_x_i_2_5_3_0_/3282460 DO - 10.1021/ic050416j.s003 L4 - https://ndownloader.figshare.com/files/5120203 KW - BD KW - cell parameters KW - Novel Metal Hydride LaNi 3 BH x KW - neutron powder diffraction KW - ambient conditions KW - space group Imma KW - range LaNi 3 BH 2.5 KW - Thermal gravimetrical analysis KW - symmetry changes KW - space group Cmcm KW - La 3 Ni 3 KW - La 2 Ni 3 KW - hydrogen sites KW - unit cell doubles KW - hydrogenation properties KW - La 2 Ni 2 KW - novel structure KW - intermetallic boride LaNi 3 B KW - crystal structure KW - hydride phase KW - Ni 3 D 3 N2 - The crystal structure and hydrogenation properties of the intermetallic boride LaNi3B were investigated. The hydrogen-free compound has a novel structure with orthorhombic symmetry, space group Imma, a = 4.9698(8) Å, b = 7.1337(8) Å, c = 8.3001(9) Å, and V = 294.26(7) Å3. Thermal gravimetrical analysis reveals a hydride phase that forms near ambient conditions within the compositional range LaNi3BH2.5-3.0. Single-crystal X-ray diffraction on both the alloy and the hydride, using the same crystal, shows an expansion in the a−c plane (by up to ∼8%) and a contraction along b (by ∼3%), while the symmetry changes from Imma to Bmmb (Cmcm) and the unit cell doubles along a and b. The cell parameters for the composition of LaNi3BD2.73(4) are a = 10.7709(7) Å, b = 16.0852(10) Å, c = 7.6365(5) Å, V = 1323.03(15) Å3, and space group Cmcm. Four nearly fully occupied interstitial hydrogen sites were located by neutron powder diffraction on deuterides and found to have tetrahedral, La2Ni2 (D1,D2), trigonal-prismatic, La3Ni3 (D3), and trigonal-bipyramidal, La2Ni3 (D4), metal environments. The structure can also be described in terms of alternating quasi two-dimensional [NiD]- slabs (Ni−D = 1.62−1.97 Å) and La−B sheets for which bond-valence sums suggest the limiting formula La3+B0[Ni3D3]3-. The La−B planes do not accommodate deuterium; the B−D and D−D interactions appear to be repulsive. The shortest B−D and D−D contacts are 2.52(2) and 2.33(2) Å, respectively. ER -