#------------------------------------------------------------------------------ #$Date: 2018-10-07 13:08:50 +0300 (Sun, 07 Oct 2018) $ #$Revision: 211346 $ #$URL: file:///home/coder/svn-repositories/cod/cif/8/10/45/8104541.cif $ #------------------------------------------------------------------------------ # # This file is available in the Crystallography Open Database (COD), # http://www.crystallography.net/ # # All data on this site have been placed in the public domain by the # contributors. # data_8104541 loop_ _publ_author_name 'Auer, Henry' 'Weber, Sebastian' 'Hansen, Thomas Christian' 'T\"obbens, Daniel Maria' 'Kohlmann, Holger' _publ_section_title ; Reversible hydrogenation of the Zintl phases BaGe and BaSn studied by in situ diffraction ; _journal_issue 6 _journal_name_full 'Zeitschrift f\"ur Kristallographie - Crystalline Materials' _journal_page_first 399 _journal_paper_doi 10.1515/zkri-2017-2142 _journal_volume 233 _journal_year 2018 _chemical_formula_sum 'Ba D0.19 Sn' _chemical_formula_weight 256.42 _chemical_name_systematic ' ?' _space_group_IT_number 63 _symmetry_cell_setting orthorhombic _symmetry_space_group_name_Hall '-C 2c 2' _symmetry_space_group_name_H-M 'C m c m' _cell_angle_alpha 90.000000 _cell_angle_beta 90.000000 _cell_angle_gamma 90.000000 _cell_formula_units_Z 4 _cell_length_a 5.2272(6) _cell_length_b 12.9360(15) _cell_length_c 4.6397(6) _cell_measurement_pressure 5200 _cell_measurement_reflns_used 126 _cell_measurement_temperature 478 _cell_measurement_theta_max 117.5 _cell_measurement_theta_min 15.5 _cell_volume 313.73(7) _computing_structure_refinement FULLPROF _diffrn_ambient_temperature 478 _diffrn_measurement_device_type 'ILL D20 two-axis diffractometer' _diffrn_radiation_type neutron _diffrn_radiation_wavelength 1.868189 _diffrn_source 'nuclear reactor' _diffrn_source_type 'constant wave length neutron diffraction' _pd_char_colour grey _pd_instr_location ' 'D20 diffractometer, ILL, Grenoble, France'' _pd_meas_2theta_range_inc 0.050086 _pd_meas_2theta_range_max 150.15240 _pd_meas_2theta_range_min 0.30240 _pd_meas_number_of_points 2994 _pd_meas_scan_method fixed _pd_proc_2theta_range_inc 0.050086 _pd_proc_2theta_range_max 150.2012 _pd_proc_2theta_range_min 0.3512 _pd_proc_ls_pref_orient_corr ' ?' _pd_proc_ls_prof_R_factor 4.1713 _pd_proc_ls_prof_wR_expected 2.0460 _pd_proc_ls_prof_wR_factor 5.4952 _pd_proc_wavelength 1.868189 _pd_spec_mounting ' 'sapphire single crystal cell under 5 MPa hydrogen pressure'' _pd_spec_mount_mode transmission _pd_spec_shape cylinder _refine_ls_goodness_of_fit_all 2.6858 _refine_ls_number_parameters 19 _refine_ls_number_reflns 126 _refine_ls_number_restraints 0 _refine_ls_R_I_factor 11.3652 _refine_ls_shift/su_max 0.05 _cod_data_source_file a-BaSnD0.19_fullprof.cif _cod_data_source_block alpha-BaSnDx _cod_depositor_comments ; The following automatic conversions were performed: '_symmetry_cell_setting' value 'Orthorhombic' changed to 'orthorhombic' according to the built-in table from CIF Core dictionary named 'cif_core.dic' version 2.4.1 from 2010-06-29. Automatic conversion script Id: cif_fix_values 5642 2017-10-24 12:04:52Z antanas ; _cod_original_formula_sum 'Ba1 D0.19 Sn1' _cod_database_code 8104541 _pd_proc_ls_prof_cr_factor 24.3761 _pd_proc_ls_prof_cwr_factor 19.5903 _pd_proc_ls_prof_cwr_expected 7.2941 _pd_proc_ls_prof_chi2 7.2134 _pd_proc_ls_prof_echi2 7.2134 loop_ _symmetry_equiv_pos_as_xyz x,y,z x,-y,-z -x,y,-z+1/2 -x,-y,z+1/2 -x,-y,-z -x,y,z x,-y,z+1/2 x,y,-z+1/2 x+1/2,y+1/2,z x+1/2,-y+1/2,-z -x+1/2,y+1/2,-z+1/2 -x+1/2,-y+1/2,z+1/2 -x+1/2,-y+1/2,-z -x+1/2,y+1/2,z x+1/2,-y+1/2,z+1/2 x+1/2,y+1/2,-z+1/2 loop_ _atom_site_label _atom_site_fract_x _atom_site_fract_y _atom_site_fract_z _atom_site_U_iso_or_equiv _atom_site_occupancy _atom_site_adp_type _atom_site_type_symbol Ba1 0.000000 0.3530(3) 0.250000 0.045 1.000000 Uiso Ba Sn1 0.000000 0.0698(3) 0.250000 0.045 1.000000 Uiso Sn D1 0.000000 0.2469(12) 0.750000 0.058 0.188(5) Uiso D loop_ _atom_type_symbol _atom_type_scat_length_neutron _atom_type_scat_source Sr 0.70200 V.F._Sears_Neutron_News_3_26_(1992) Ge 0.81850 V.F._Sears_Neutron_News_3_26_(1992) D 0.66710 V.F._Sears_Neutron_News_3_26_(1992) loop_ _geom_angle_atom_site_label_1 _geom_angle_atom_site_label_2 _geom_angle_atom_site_label_3 _geom_angle _geom_angle_site_symmetry_1 _geom_angle_site_symmetry_3 Sn1 Ba1 Sn1 137.02(18) 1_555 9_455 Sn1 Ba1 Sn1 137.02(18) 1_555 9_555 Sn1 Ba1 Sn1 105.95(14) 1_555 10_455 Sn1 Ba1 Sn1 105.95(14) 1_555 10_456 Sn1 Ba1 Sn1 105.95(14) 1_555 10_555 Sn1 Ba1 Sn1 105.95(14) 1_555 10_556 Sn1 Ba1 D1 59.4(3) 1_555 1_554 Sn1 Ba1 D1 59.4(3) 1_555 1_555 Sn1 Ba1 D1 63.7(3) 1_555 10_456 Sn1 Ba1 D1 63.7(3) 1_555 10_556 Sn1 Ba1 Sn1 85.96(9) 9_455 9_555 Sn1 Ba1 Sn1 46.27(8) 9_455 10_455 Sn1 Ba1 Sn1 46.27(8) 9_455 10_456 Sn1 Ba1 Sn1 106.81(8) 9_455 10_555 Sn1 Ba1 Sn1 106.81(8) 9_455 10_556 Sn1 Ba1 D1 111.9(4) 9_455 1_554 Sn1 Ba1 D1 111.9(4) 9_455 1_555 Sn1 Ba1 D1 73.3(4) 9_455 10_456 Sn1 Ba1 D1 159.3(4) 9_455 10_556 Sn1 Ba1 Sn1 106.81(8) 9_555 10_455 Sn1 Ba1 Sn1 106.81(8) 9_555 10_456 Sn1 Ba1 Sn1 46.27(8) 9_555 10_555 Sn1 Ba1 Sn1 46.27(8) 9_555 10_556 Sn1 Ba1 D1 111.9(4) 9_555 1_554 Sn1 Ba1 D1 111.9(4) 9_555 1_555 Sn1 Ba1 D1 159.3(4) 9_555 10_456 Sn1 Ba1 D1 73.3(4) 9_555 10_556 Sn1 Ba1 Sn1 79.33(4) 10_455 10_456 Sn1 Ba1 Sn1 91.96(4) 10_455 10_555 Sn1 Ba1 Sn1 148.10(4) 10_455 10_556 Sn1 Ba1 D1 65.8(3) 10_455 1_554 Sn1 Ba1 D1 133.6(3) 10_455 1_555 Sn1 Ba1 D1 58.5(2) 10_455 10_456 Sn1 Ba1 D1 140.0(2) 10_455 10_556 Sn1 Ba1 Sn1 148.10(4) 10_456 10_555 Sn1 Ba1 Sn1 91.96(4) 10_456 10_556 Sn1 Ba1 D1 133.6(3) 10_456 1_554 Sn1 Ba1 D1 65.8(3) 10_456 1_555 Sn1 Ba1 D1 58.5(2) 10_456 10_456 Sn1 Ba1 D1 140.0(2) 10_456 10_556 Sn1 Ba1 Sn1 79.33(4) 10_555 10_556 Sn1 Ba1 D1 65.8(3) 10_555 1_554 Sn1 Ba1 D1 133.6(3) 10_555 1_555 Sn1 Ba1 D1 140.0(2) 10_555 10_456 Sn1 Ba1 D1 58.5(2) 10_555 10_556 Sn1 Ba1 D1 133.6(3) 10_556 1_554 Sn1 Ba1 D1 65.8(3) 10_556 1_555 Sn1 Ba1 D1 140.0(2) 10_556 10_456 Sn1 Ba1 D1 58.5(2) 10_556 10_556 D1 Ba1 D1 118.8(2) 1_554 1_555 D1 Ba1 D1 77.0(2) 1_554 10_456 D1 Ba1 D1 77.0(2) 1_554 10_556 D1 Ba1 D1 77.0(2) 1_555 10_456 D1 Ba1 D1 77.0(2) 1_555 10_556 D1 Ba1 D1 127.38(20) 10_456 10_556 Ba1 Sn1 Ba1 137.02(18) 1_555 9_445 Ba1 Sn1 Ba1 137.02(18) 1_555 9_545 Ba1 Sn1 Ba1 74.05(11) 1_555 10_455 Ba1 Sn1 Ba1 74.05(11) 1_555 10_456 Ba1 Sn1 Ba1 74.05(11) 1_555 10_555 Ba1 Sn1 Ba1 74.05(11) 1_555 10_556 Ba1 Sn1 Sn1 127.90(19) 1_555 2_555 Ba1 Sn1 Sn1 127.90(19) 1_555 2_556 Ba1 Sn1 D1 45.4(2) 1_555 1_554 Ba1 Sn1 D1 45.4(2) 1_555 1_555 Ba1 Sn1 D1 47.8(2) 1_555 10_456 Ba1 Sn1 D1 47.8(2) 1_555 10_556 Ba1 Sn1 Ba1 85.96(9) 9_445 9_545 Ba1 Sn1 Ba1 73.19(11) 9_445 10_455 Ba1 Sn1 Ba1 73.19(11) 9_445 10_456 Ba1 Sn1 Ba1 133.73(11) 9_445 10_555 Ba1 Sn1 Ba1 133.73(11) 9_445 10_556 Ba1 Sn1 Sn1 63.30(9) 9_445 2_555 Ba1 Sn1 Sn1 63.30(9) 9_445 2_556 Ba1 Sn1 D1 120.9(4) 9_445 1_554 Ba1 Sn1 D1 120.9(4) 9_445 1_555 Ba1 Sn1 D1 89.2(4) 9_445 10_456 Ba1 Sn1 D1 175.2(4) 9_445 10_556 Ba1 Sn1 Ba1 133.73(11) 9_545 10_455 Ba1 Sn1 Ba1 133.73(11) 9_545 10_456 Ba1 Sn1 Ba1 73.19(11) 9_545 10_555 Ba1 Sn1 Ba1 73.19(11) 9_545 10_556 Ba1 Sn1 Sn1 63.30(9) 9_545 2_555 Ba1 Sn1 Sn1 63.30(9) 9_545 2_556 Ba1 Sn1 D1 120.9(4) 9_545 1_554 Ba1 Sn1 D1 120.9(4) 9_545 1_555 Ba1 Sn1 D1 175.2(4) 9_545 10_456 Ba1 Sn1 D1 89.2(4) 9_545 10_556 Ba1 Sn1 Ba1 79.33(4) 10_455 10_456 Ba1 Sn1 Ba1 91.96(4) 10_455 10_555 Ba1 Sn1 Ba1 148.10(4) 10_455 10_556 Ba1 Sn1 Sn1 70.43(11) 10_455 2_555 Ba1 Sn1 Sn1 132.26(11) 10_455 2_556 Ba1 Sn1 D1 49.7(2) 10_455 1_554 Ba1 Sn1 D1 105.1(2) 10_455 1_555 Ba1 Sn1 D1 110.4(2) 10_455 10_556 Ba1 Sn1 Ba1 148.10(4) 10_456 10_555 Ba1 Sn1 Ba1 91.96(4) 10_456 10_556 Ba1 Sn1 Sn1 132.26(11) 10_456 2_555 Ba1 Sn1 Sn1 70.43(11) 10_456 2_556 Ba1 Sn1 D1 105.1(2) 10_456 1_554 Ba1 Sn1 D1 49.7(2) 10_456 1_555 Ba1 Sn1 D1 110.4(2) 10_456 10_556 Ba1 Sn1 Ba1 79.33(4) 10_555 10_556 Ba1 Sn1 Sn1 70.43(11) 10_555 2_555 Ba1 Sn1 Sn1 132.26(11) 10_555 2_556 Ba1 Sn1 D1 49.7(2) 10_555 1_554 Ba1 Sn1 D1 105.1(2) 10_555 1_555 Ba1 Sn1 D1 110.4(2) 10_555 10_456 Ba1 Sn1 Sn1 132.26(11) 10_556 2_555 Ba1 Sn1 Sn1 70.43(11) 10_556 2_556 Ba1 Sn1 D1 105.1(2) 10_556 1_554 Ba1 Sn1 D1 49.7(2) 10_556 1_555 Ba1 Sn1 D1 110.4(2) 10_556 10_456 Sn1 Sn1 Sn1 104.20(10) 2_555 2_556 Sn1 Sn1 D1 82.5(4) 2_555 1_554 Sn1 Sn1 D1 173.3(4) 2_555 1_555 Sn1 Sn1 D1 114.4(4) 2_555 10_456 Sn1 Sn1 D1 114.4(4) 2_555 10_556 Sn1 Sn1 D1 173.3(4) 2_556 1_554 Sn1 Sn1 D1 82.5(4) 2_556 1_555 Sn1 Sn1 D1 114.4(4) 2_556 10_456 Sn1 Sn1 D1 114.4(4) 2_556 10_556 D1 Sn1 D1 90.7(3) 1_554 1_555 D1 Sn1 D1 61.8(3) 1_554 10_456 D1 Sn1 D1 61.8(3) 1_554 10_556 D1 Sn1 D1 61.8(3) 1_555 10_456 D1 Sn1 D1 61.8(3) 1_555 10_556 D1 Sn1 D1 95.6(2) 10_456 10_556 Ba1 D1 Ba1 118.8(2) 1_555 1_556 Ba1 D1 Ba1 103.0(2) 1_555 10_456 Ba1 D1 Ba1 103.0(2) 1_555 10_556 Ba1 D1 Sn1 75.3(3) 1_555 1_555 Ba1 D1 Sn1 166.0(3) 1_555 1_556 Ba1 D1 Sn1 70.0(2) 1_555 10_456 Ba1 D1 Sn1 70.0(2) 1_555 10_556 Ba1 D1 D1 54.3(2) 1_555 10_456 Ba1 D1 D1 124.0(2) 1_555 10_457 Ba1 D1 D1 54.3(2) 1_555 10_556 Ba1 D1 D1 124.0(2) 1_555 10_557 Ba1 D1 Ba1 103.0(2) 1_556 10_456 Ba1 D1 Ba1 103.0(2) 1_556 10_556 Ba1 D1 Sn1 166.0(3) 1_556 1_555 Ba1 D1 Sn1 75.3(3) 1_556 1_556 Ba1 D1 Sn1 70.0(2) 1_556 10_456 Ba1 D1 Sn1 70.0(2) 1_556 10_556 Ba1 D1 D1 124.0(2) 1_556 10_456 Ba1 D1 D1 54.3(2) 1_556 10_457 Ba1 D1 D1 124.0(2) 1_556 10_556 Ba1 D1 D1 54.3(2) 1_556 10_557 Ba1 D1 Ba1 127.38(20) 10_456 10_556 Ba1 D1 Sn1 71.9(2) 10_456 1_555 Ba1 D1 Sn1 71.9(2) 10_456 1_556 Ba1 D1 Sn1 68.5(3) 10_456 10_456 Ba1 D1 Sn1 164.1(3) 10_456 10_556 Ba1 D1 D1 48.70(19) 10_456 10_456 Ba1 D1 D1 48.70(19) 10_456 10_457 Ba1 D1 D1 132.88(19) 10_456 10_556 Ba1 D1 D1 132.88(19) 10_456 10_557 Ba1 D1 Sn1 71.9(2) 10_556 1_555 Ba1 D1 Sn1 71.9(2) 10_556 1_556 Ba1 D1 Sn1 164.1(3) 10_556 10_456 Ba1 D1 Sn1 68.5(3) 10_556 10_556 Ba1 D1 D1 132.88(19) 10_556 10_456 Ba1 D1 D1 132.88(19) 10_556 10_457 Ba1 D1 D1 48.70(19) 10_556 10_556 Ba1 D1 D1 48.70(19) 10_556 10_557 Sn1 D1 Sn1 90.7(3) 1_555 1_556 Sn1 D1 Sn1 118.2(3) 1_555 10_456 Sn1 D1 Sn1 118.2(3) 1_555 10_556 Sn1 D1 D1 62.9(3) 1_555 10_456 Sn1 D1 D1 119.2(3) 1_555 10_457 Sn1 D1 D1 62.9(3) 1_555 10_556 Sn1 D1 D1 119.2(3) 1_555 10_557 Sn1 D1 Sn1 118.2(3) 1_556 10_456 Sn1 D1 Sn1 118.2(3) 1_556 10_556 Sn1 D1 D1 119.2(3) 1_556 10_456 Sn1 D1 D1 62.9(3) 1_556 10_457 Sn1 D1 D1 119.2(3) 1_556 10_556 Sn1 D1 D1 62.9(3) 1_556 10_557 Sn1 D1 Sn1 95.6(2) 10_456 10_556 Sn1 D1 D1 55.3(2) 10_456 10_456 Sn1 D1 D1 55.3(2) 10_456 10_457 Sn1 D1 D1 122.6(2) 10_456 10_556 Sn1 D1 D1 122.6(2) 10_456 10_557 Sn1 D1 D1 122.6(2) 10_556 10_456 Sn1 D1 D1 122.6(2) 10_556 10_457 Sn1 D1 D1 55.3(2) 10_556 10_556 Sn1 D1 D1 55.3(2) 10_556 10_557 D1 D1 D1 83.158(19) 10_456 10_457 D1 D1 D1 96.78(2) 10_456 10_556 D1 D1 D1 177.37(2) 10_456 10_557 D1 D1 D1 177.37(2) 10_457 10_556 D1 D1 D1 96.78(2) 10_457 10_557 D1 D1 D1 83.158(19) 10_556 10_557 loop_ _geom_bond_atom_site_label_1 _geom_bond_atom_site_label_2 _geom_bond_distance _geom_bond_site_symmetry_2 Ba1 Sn1 3.663(6) 1_555 Ba1 Sn1 3.834(4) 9_455 Ba1 Sn1 3.834(4) 9_555 Ba1 Sn1 3.6345(15) 10_455 Ba1 Sn1 3.6345(15) 10_456 Ba1 Sn1 3.6345(15) 10_555 Ba1 Sn1 3.6345(15) 10_556 Ba1 D1 2.695(8) 1_554 Ba1 D1 2.695(8) 1_555 Ba1 D1 2.916(7) 10_456 Ba1 D1 2.916(7) 10_556 Sn1 Ba1 3.663(6) 1_555 Sn1 Ba1 3.834(4) 9_445 Sn1 Ba1 3.834(4) 9_545 Sn1 Ba1 3.6345(15) 10_455 Sn1 Ba1 3.6345(15) 10_456 Sn1 Ba1 3.6345(15) 10_555 Sn1 Ba1 3.6345(15) 10_556 Sn1 Sn1 2.940(3) 2_555 Sn1 Sn1 2.940(3) 2_556 Sn1 D1 3.260(11) 1_554 Sn1 D1 3.260(11) 1_555 Sn1 D1 3.529(11) 10_456 Sn1 D1 3.529(11) 10_556 D1 Ba1 2.695(8) 1_555 D1 Ba1 2.695(8) 1_556 D1 Ba1 2.916(7) 10_456 D1 Ba1 2.916(7) 10_556 D1 Sn1 3.260(11) 1_555 D1 Sn1 3.260(11) 1_556 D1 Sn1 3.529(11) 10_456 D1 Sn1 3.529(11) 10_556 D1 D1 3.4956(6) 10_456 D1 D1 3.4956(6) 10_457 D1 D1 3.4956(6) 10_556 D1 D1 3.4956(6) 10_557