Inorg Chem. 2018 Sep 4;57(17):10925-10934. doi: 10.1021/acs.inorgchem.8b01547. Epub 2018 Aug 20.
The hydrogenation properties of the cubic Laves phase CaRh and the formation of the perovskite CaRhH were studied by in situ thermal analysis (differential scanning calorimetry), sorption experiments, and in situ neutron powder diffraction. Three Laves phase hydrides are formed successively at room temperature and hydrogen gas pressures up to 5 MPa. Cubic α-CaRhH is a stuffed cubic Laves phase with statistically distributed hydrogen atoms in tetrahedral [CaRh] voids (ZrCrH type, Fd3̅ m, a = 7.5308(12) Å). Orthorhombic β-CaRhD (own structure type, Pnma, a = 6.0028(3) Å, b = 5.6065(3) Å, c = 8.1589(5) Å) and γ-CaRhD (β-CaRhH type, Pnma, a = 5.9601(10) Å, b = 5.4912(2) Å, c = 8.0730(11) Å) are low-symmetry variants thereof with hydrogen occupying distorted tetrahedral [CaRh] and trigonal bipyramidal [CaRh] voids. Hydrogen sorption experiments show the hydrogenation to take place already at 0.1 MPa and to yield β-CaRhH. At 560 K and 5 MPa hydrogen pressure the Laves phase hydride decomposes kinetically controlled to nanocrystalline rhodium and CaRhD (CaTiO type, Pm3̅ m, a = 3.6512(2) Å). The hydrogenation of CaRh provides a synthesis route to otherwise not accessible perovskite-type CaRhH.
采用原位热分析(差示扫描量热法)、吸附实验和原位中子粉末衍射研究了立方 Laves 相 CaRh 的加氢性质和钙钛矿 CaRhH 的形成。在室温下和氢气压力高达 5 MPa 的条件下,成功地形成了三种 Laves 相氢化物。立方α-CaRhH 是一种填充的立方 Laves 相,其氢原子在四面体 [CaRh] 空隙中呈统计分布(ZrCrH 型,Fd3̅ m,a = 7.5308(12) Å)。正交β-CaRhD(自有结构类型,Pnma,a = 6.0028(3) Å,b = 5.6065(3) Å,c = 8.1589(5) Å)和γ-CaRhD(β-CaRhH 型,Pnma,a = 5.9601(10) Å,b = 5.4912(2) Å,c = 8.0730(11) Å)是低对称性变体,氢占据扭曲的四面体 [CaRh] 和三角双锥 [CaRh] 空隙。氢气吸附实验表明,氢化反应在 0.1 MPa 时即可进行,并生成β-CaRhH。在 560 K 和 5 MPa 氢气压力下,Laves 相氢化物动力学控制分解为纳米晶铑和 CaRhD(CaTiO 型,Pm3̅ m,a = 3.6512(2) Å)。CaRh 的加氢为合成 otherwise not accessible perovskite-type CaRhH 提供了一条途径。
