#------------------------------------------------------------------------------ #$Date: 2015-04-02 14:22:18 +0300 (Thu, 02 Apr 2015) $ #$Revision: 134621 $ #$URL: file:///home/coder/svn-repositories/cod/cif/2/00/87/2008760.cif $ #------------------------------------------------------------------------------ # # This file is available in the Crystallography Open Database (COD), # http://www.crystallography.net/. The original data for this entry # were provided by IUCr Journals, http://journals.iucr.org/. # # The file may be used within the scientific community so long as # proper attribution is given to the journal article from which the # data were obtained. # data_2008760 loop_ _publ_author_name 'Hasselgren, Catrin' 'Jagner, Susan' _publ_section_title ; Dirubidium catena-poly[dichloroargentate(I)-\m-chloro] ; _journal_issue 8 _journal_name_full 'Acta Crystallographica Section C' _journal_page_first 1208 _journal_page_last 1210 _journal_paper_doi 10.1107/S0108270199006277 _journal_volume 55 _journal_year 1999 _chemical_formula_iupac 'Rb2 Ag Cl3' _chemical_formula_sum 'Ag Cl3 Rb2' _chemical_formula_weight 385.16 _chemical_melting_point .565E-305 _space_group_IT_number 62 _symmetry_cell_setting orthorhombic _symmetry_space_group_name_Hall '-P 2ac 2n' _symmetry_space_group_name_H-M 'P n m a' _audit_creation_method 'WinGX routine CIF_UPDATE' _cell_angle_alpha 90 _cell_angle_beta 90 _cell_angle_gamma 90 _cell_formula_units_Z 4 _cell_length_a 9.205(3) _cell_length_b 4.4822(10) _cell_length_c 17.8738(13) _cell_measurement_reflns_used 25 _cell_measurement_temperature 293(2) _cell_measurement_theta_max 18.5 _cell_measurement_theta_min 11.2 _cell_volume 737.4(3) _computing_cell_refinement 'TEXSAN for Windows' _computing_data_collection 'TEXSAN for Windows (Molecular Structure Corporation, 1997)' _computing_molecular_graphics 'ORTEP-3 (Farrugia, 1997)' _computing_structure_refinement ; SHELXL97 (Sheldrick, 1997) included in the WinGX program system (Farrugia, 1998) ; _computing_structure_solution 'SIR92 (Altomare et al., 1993)' _diffrn_measured_fraction_theta_full 1 _diffrn_measured_fraction_theta_max 1 _diffrn_measurement_device_type 'Rigaku AFC-6R' _diffrn_measurement_method \w-2\q _diffrn_radiation_monochromator graphite _diffrn_radiation_source 'Rigaku rotating anode' _diffrn_radiation_type MoK\a _diffrn_radiation_wavelength 0.71073 _diffrn_reflns_av_R_equivalents 0 _diffrn_reflns_limit_h_max 10 _diffrn_reflns_limit_h_min 0 _diffrn_reflns_limit_k_max 5 _diffrn_reflns_limit_k_min 0 _diffrn_reflns_limit_l_max 0 _diffrn_reflns_limit_l_min -21 _diffrn_reflns_number 741 _diffrn_reflns_theta_full 24.96 _diffrn_reflns_theta_max 24.96 _diffrn_reflns_theta_min 2.28 _diffrn_standards_decay_% 0.99 _diffrn_standards_interval_count 150 _diffrn_standards_number 3 _exptl_absorpt_coefficient_mu 16.811 _exptl_absorpt_correction_T_max 0.186 _exptl_absorpt_correction_T_min 0.096 _exptl_absorpt_correction_type '\y scan' _exptl_absorpt_process_details '(North et al., 1968)' _exptl_crystal_colour colourless _exptl_crystal_density_diffrn 3.469 _exptl_crystal_density_method 'not measured' _exptl_crystal_description needle _exptl_crystal_F_000 688 _exptl_crystal_size_max 0.20 _exptl_crystal_size_mid 0.15 _exptl_crystal_size_min 0.10 _refine_diff_density_max 0.979 _refine_diff_density_min -2.11 _refine_ls_extinction_method none _refine_ls_goodness_of_fit_ref 1.046 _refine_ls_hydrogen_treatment none _refine_ls_matrix_type full _refine_ls_number_parameters 43 _refine_ls_number_reflns 741 _refine_ls_number_restraints 0 _refine_ls_restrained_S_all 1.046 _refine_ls_R_factor_gt 0.035 _refine_ls_shift/su_max 0.011 _refine_ls_structure_factor_coef Fsqd _refine_ls_weighting_details 'w = 1/[\s^2^(F~o~^2^) + (0.0287P)^2^] where P = [2F~c~^2^ + max(F~o~^2^,0)]/3' _refine_ls_weighting_scheme calc _refine_ls_wR_factor_ref 0.094 _reflns_number_gt 416 _reflns_number_total 741 _reflns_threshold_expression I>2\s(I) _[local]_cod_data_source_file br1243.cif _[local]_cod_data_source_block agrb2cl3 _cod_depositor_comments ; The following automatic conversions were performed: '_refine_ls_weighting_scheme' value 'w = 1/[\s^2^(F~o~^2^) + (0.0287P)^2^] where P = [2F~c~^2^ + max(F~o~^2^,0)]/3' was changed to 'calc'. New tag '_refine_ls_weighting_details' was created. The value of the new tag was set to 'w = 1/[\s^2^(F~o~^2^) + (0.0287P)^2^] where P = [2F~c~^2^ + max(F~o~^2^,0)]/3'. Automatic conversion script Id: cif_fix_values 3143 2015-03-26 13:38:13Z robertas ; _cod_original_cell_volume 737.5(3) _cod_database_code 2008760 _cod_database_fobs_code 2008760 loop_ _symmetry_equiv_pos_as_xyz 'x, y, z' 'x+1/2, -y+1/2, -z+1/2' '-x, y+1/2, -z' '-x+1/2, -y, z+1/2' '-x, -y, -z' '-x-1/2, y-1/2, z-1/2' 'x, -y-1/2, z' 'x-1/2, y, -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_adp_type _atom_site_calc_flag _atom_site_refinement_flags _atom_site_occupancy _atom_site_disorder_assembly _atom_site_disorder_group _atom_site_type_symbol Ag1 0.37873(15) 0.25 0.63107(8) 0.0327(4) Uani d S 1 . . Ag Rb1 0.07860(18) -0.25 0.71280(9) 0.0258(4) Uani d S 1 . . Rb Rb2 0.76095(19) 0.25 0.54384(9) 0.0264(4) Uani d S 1 . . Rb Cl1 0.1216(5) 0.25 0.5727(2) 0.0270(10) Uani d S 1 . . Cl Cl2 0.3153(5) 0.25 0.7729(2) 0.0259(10) Uani d S 1 . . Cl Cl3 0.5066(5) -0.25 0.5974(2) 0.0266(10) Uani d S 1 . . Cl loop_ _atom_site_aniso_label _atom_site_aniso_U_11 _atom_site_aniso_U_22 _atom_site_aniso_U_33 _atom_site_aniso_U_12 _atom_site_aniso_U_13 _atom_site_aniso_U_23 Ag1 0.0286(9) 0.0335(8) 0.0361(8) 0 0.0024(7) 0 Rb1 0.0257(10) 0.0203(8) 0.0314(9) 0 0.0007(8) 0 Rb2 0.0270(10) 0.0275(9) 0.0246(8) 0 0.0033(8) 0 Cl1 0.023(3) 0.029(2) 0.028(2) 0 0.000(2) 0 Cl2 0.026(2) 0.030(2) 0.022(2) 0 -0.001(2) 0 Cl3 0.029(2) 0.020(2) 0.031(2) 0 0.0016(19) 0 loop_ _atom_type_symbol _atom_type_description _atom_type_scat_dispersion_real _atom_type_scat_dispersion_imag _atom_type_scat_source Ag Ag -0.8971 1.1015 'International Tables Vol C Tables 4.2.6.8 and 6.1.1.4' Rb Rb -0.9393 2.9676 'International Tables Vol C Tables 4.2.6.8 and 6.1.1.4' Cl Cl 0.1484 0.1585 'International Tables Vol C Tables 4.2.6.8 and 6.1.1.4' loop_ _geom_angle_atom_site_label_1 _geom_angle_atom_site_label_2 _geom_angle_atom_site_label_3 _geom_angle_site_symmetry_1 _geom_angle_site_symmetry_3 _geom_angle _geom_angle_publ_flag Cl1 Ag1 Cl2 . . 100.82(14) y Cl1 Ag1 Cl3 . 1_565 108.71(10) ? Cl2 Ag1 Cl3 . 1_565 109.08(10) ? Cl1 Ag1 Cl3 . . 108.71(11) y Cl2 Ag1 Cl3 . . 109.08(10) y Cl3 Ag1 Cl3 1_565 . 118.93(17) y Cl1 Ag1 Rb1 . . 59.72(8) ? Cl2 Ag1 Rb1 . . 57.90(7) ? Cl3 Ag1 Rb1 1_565 . 156.17(9) ? Cl3 Ag1 Rb1 . . 84.89(9) ? Cl1 Ag1 Rb1 . 1_565 59.72(8) ? Cl2 Ag1 Rb1 . 1_565 57.90(7) ? Cl3 Ag1 Rb1 1_565 1_565 84.89(9) ? Cl3 Ag1 Rb1 . 1_565 156.17(9) ? Rb1 Ag1 Rb1 . 1_565 71.29(4) ? Cl1 Ag1 Rb2 . . 132.31(11) ? Cl2 Ag1 Rb2 . . 126.87(11) ? Cl3 Ag1 Rb2 1_565 . 59.52(9) ? Cl3 Ag1 Rb2 . . 59.52(9) ? Rb1 Ag1 Rb2 . . 144.16(2) ? Rb1 Ag1 Rb2 1_565 . 144.16(2) ? Cl1 Ag1 Rb1 . 8_657 134.27(7) ? Cl2 Ag1 Rb1 . 8_657 55.03(7) ? Cl3 Ag1 Rb1 1_565 8_657 58.26(9) ? Cl3 Ag1 Rb1 . 8_657 115.67(11) ? Rb1 Ag1 Rb1 . 8_657 112.93(4) ? Rb1 Ag1 Rb1 1_565 8_657 74.96(3) ? Rb2 Ag1 Rb1 . 8_657 82.12(4) ? Cl1 Ag1 Rb1 . 8_667 134.27(7) ? Cl2 Ag1 Rb1 . 8_667 55.03(7) ? Cl3 Ag1 Rb1 1_565 8_667 115.67(11) ? Cl3 Ag1 Rb1 . 8_667 58.26(9) ? Rb1 Ag1 Rb1 . 8_667 74.96(3) ? Rb1 Ag1 Rb1 1_565 8_667 112.93(4) ? Rb2 Ag1 Rb1 . 8_667 82.12(4) ? Rb1 Ag1 Rb1 8_657 8_667 67.68(4) ? Cl1 Ag1 Rb2 . 5_656 53.06(7) ? Cl2 Ag1 Rb2 . 5_656 132.84(7) ? Cl3 Ag1 Rb2 1_565 5_656 116.17(10) ? Cl3 Ag1 Rb2 . 5_656 59.28(10) ? Rb1 Ag1 Rb2 . 5_656 75.11(4) ? Rb1 Ag1 Rb2 1_565 5_656 112.77(5) ? Rb2 Ag1 Rb2 . 5_656 88.71(4) ? Rb1 Ag1 Rb2 8_657 5_656 170.81(5) ? Rb1 Ag1 Rb2 8_667 5_656 111.82(2) ? Cl1 Ag1 Rb2 . 5_666 53.06(7) ? Cl2 Ag1 Rb2 . 5_666 132.84(7) ? Cl3 Ag1 Rb2 1_565 5_666 59.28(10) ? Cl3 Ag1 Rb2 . 5_666 116.17(10) ? Rb1 Ag1 Rb2 . 5_666 112.77(5) ? Rb1 Ag1 Rb2 1_565 5_666 75.11(4) ? Rb2 Ag1 Rb2 . 5_666 88.71(4) ? Rb1 Ag1 Rb2 8_657 5_666 111.82(2) ? Rb1 Ag1 Rb2 8_667 5_666 170.81(5) ? Rb2 Ag1 Rb2 5_656 5_666 67.09(4) ? Cl2 Rb1 Cl2 . 8_557 85.38(10) ? Cl2 Rb1 Cl2 . 2_446 156.41(6) ? Cl2 Rb1 Cl2 8_557 2_446 89.92(3) ? Cl2 Rb1 Cl2 . 8_547 89.92(3) ? Cl2 Rb1 Cl2 8_557 8_547 156.41(6) ? Cl2 Rb1 Cl2 2_446 8_547 85.20(11) ? Cl2 Rb1 Cl1 . 8_557 127.78(11) ? Cl2 Rb1 Cl1 8_557 8_557 73.41(9) ? Cl2 Rb1 Cl1 2_446 8_557 72.20(9) ? Cl2 Rb1 Cl1 8_547 8_557 126.22(11) ? Cl2 Rb1 Cl1 . . 73.41(9) ? Cl2 Rb1 Cl1 8_557 . 127.78(11) ? Cl2 Rb1 Cl1 2_446 . 126.22(11) ? Cl2 Rb1 Cl1 8_547 . 72.20(9) ? Cl1 Rb1 Cl1 8_557 . 82.96(10) ? Cl2 Rb1 Cl3 . 2_446 78.89(9) ? Cl2 Rb1 Cl3 8_557 2_446 78.89(9) ? Cl2 Rb1 Cl3 2_446 2_446 77.53(9) ? Cl2 Rb1 Cl3 8_547 2_446 77.53(9) ? Cl1 Rb1 Cl3 8_557 2_446 138.48(5) ? Cl1 Rb1 Cl3 . 2_446 138.48(5) ? Cl2 Rb1 Ag1 . 8_557 92.59(7) ? Cl2 Rb1 Ag1 8_557 8_557 41.83(7) ? Cl2 Rb1 Ag1 2_446 8_557 99.25(6) ? Cl2 Rb1 Ag1 8_547 8_557 161.74(8) ? Cl1 Rb1 Ag1 8_557 8_557 41.31(8) ? Cl1 Rb1 Ag1 . 8_557 91.19(7) ? Cl3 Rb1 Ag1 2_446 8_557 120.70(7) ? Cl2 Rb1 Ag1 . . 41.83(7) ? Cl2 Rb1 Ag1 8_557 . 92.59(7) ? Cl2 Rb1 Ag1 2_446 . 161.74(8) ? Cl2 Rb1 Ag1 8_547 . 99.25(6) ? Cl1 Rb1 Ag1 8_557 . 91.19(7) ? Cl1 Rb1 Ag1 . . 41.31(8) ? Cl3 Rb1 Ag1 2_446 . 120.70(7) ? Ag1 Rb1 Ag1 8_557 . 71.29(4) ? Cl2 Rb1 Ag1 . 8_547 72.44(7) ? Cl2 Rb1 Ag1 8_557 8_547 116.96(8) ? Cl2 Rb1 Ag1 2_446 8_547 89.36(7) ? Cl2 Rb1 Ag1 8_547 8_547 40.09(7) ? Cl1 Rb1 Ag1 8_557 8_547 159.31(9) ? Cl1 Rb1 Ag1 . 8_547 101.41(5) ? Cl3 Rb1 Ag1 2_446 8_547 39.80(4) ? Ag1 Rb1 Ag1 8_557 8_547 156.40(5) ? Ag1 Rb1 Ag1 . 8_547 105.50(3) ? Cl2 Rb1 Ag1 . 2_446 116.97(8) ? Cl2 Rb1 Ag1 8_557 2_446 72.44(7) ? Cl2 Rb1 Ag1 2_446 2_446 40.09(7) ? Cl2 Rb1 Ag1 8_547 2_446 89.36(7) ? Cl1 Rb1 Ag1 8_557 2_446 101.41(5) ? Cl1 Rb1 Ag1 . 2_446 159.31(9) ? Cl3 Rb1 Ag1 2_446 2_446 39.80(4) ? Ag1 Rb1 Ag1 8_557 2_446 105.50(3) ? Ag1 Rb1 Ag1 . 2_446 156.40(5) ? Ag1 Rb1 Ag1 8_547 2_446 67.68(4) ? Cl2 Rb1 Rb1 . 8_557 132.69(5) ? Cl2 Rb1 Rb1 8_557 8_557 47.31(5) ? Cl2 Rb1 Rb1 2_446 8_557 47.40(5) ? Cl2 Rb1 Rb1 8_547 8_557 132.60(5) ? Cl1 Rb1 Rb1 8_557 8_557 48.52(5) ? Cl1 Rb1 Rb1 . 8_557 131.48(5) ? Cl3 Rb1 Rb1 2_446 8_557 90 ? Ag1 Rb1 Rb1 8_557 8_557 54.36(2) ? Ag1 Rb1 Rb1 . 8_557 125.64(2) ? Ag1 Rb1 Rb1 8_547 8_557 123.841(19) ? Ag1 Rb1 Rb1 2_446 8_557 56.159(19) ? Cl1 Rb2 Cl1 5_656 5_666 87.36(11) ? Cl1 Rb2 Cl2 5_656 8_657 125.75(8) ? Cl1 Rb2 Cl2 5_666 8_657 125.75(9) ? Cl1 Rb2 Cl1 5_656 1_655 76.66(10) ? Cl1 Rb2 Cl1 5_666 1_655 76.66(10) ? Cl2 Rb2 Cl1 8_657 1_655 72.48(11) ? Cl1 Rb2 Cl3 5_656 . 87.40(8) ? Cl1 Rb2 Cl3 5_666 . 150.54(12) ? Cl2 Rb2 Cl3 8_657 . 79.89(9) ? Cl1 Rb2 Cl3 1_655 . 129.87(8) ? Cl1 Rb2 Cl3 5_656 1_565 150.54(12) ? Cl1 Rb2 Cl3 5_666 1_565 87.40(8) ? Cl2 Rb2 Cl3 8_657 1_565 79.89(9) ? Cl1 Rb2 Cl3 1_655 1_565 129.87(8) ? Cl3 Rb2 Cl3 . 1_565 83.08(11) ? Cl1 Rb2 Cl3 5_656 5_656 76.89(10) ? Cl1 Rb2 Cl3 5_666 5_656 76.89(10) ? Cl2 Rb2 Cl3 8_657 5_656 144.39(12) ? Cl1 Rb2 Cl3 1_655 5_656 143.12(11) ? Cl3 Rb2 Cl3 . 5_656 73.68(10) ? Cl3 Rb2 Cl3 1_565 5_656 73.68(10) ? Cl1 Rb2 Ag1 5_656 . 124.38(8) ? Cl1 Rb2 Ag1 5_666 . 124.38(8) ? Cl2 Rb2 Ag1 8_657 . 74.78(8) ? Cl1 Rb2 Ag1 1_655 . 147.26(9) ? Cl3 Rb2 Ag1 . . 41.57(5) ? Cl3 Rb2 Ag1 1_565 . 41.57(5) ? Cl3 Rb2 Ag1 5_656 . 69.61(8) ? Cl1 Rb2 Ag1 5_656 5_656 39.58(8) ? Cl1 Rb2 Ag1 5_666 5_656 89.57(8) ? Cl2 Rb2 Ag1 8_657 5_656 144.08(3) ? Cl1 Rb2 Ag1 1_655 5_656 115.57(7) ? Cl3 Rb2 Ag1 . 5_656 68.43(7) ? Cl3 Rb2 Ag1 1_565 5_656 111.42(8) ? Cl3 Rb2 Ag1 5_656 5_656 39.36(4) ? Ag1 Rb2 Ag1 . 5_656 91.29(4) ? Cl1 Rb2 Ag1 5_656 5_666 89.57(8) ? Cl1 Rb2 Ag1 5_666 5_666 39.58(8) ? Cl2 Rb2 Ag1 8_657 5_666 144.08(3) ? Cl1 Rb2 Ag1 1_655 5_666 115.57(7) ? Cl3 Rb2 Ag1 . 5_666 111.42(8) ? Cl3 Rb2 Ag1 1_565 5_666 68.43(7) ? Cl3 Rb2 Ag1 5_656 5_666 39.36(4) ? Ag1 Rb2 Ag1 . 5_666 91.29(4) ? Ag1 Rb2 Ag1 5_656 5_666 67.09(4) ? Cl1 Rb2 Rb2 5_656 8_557 46.32(6) ? Cl1 Rb2 Rb2 5_666 8_557 133.68(6) ? Cl2 Rb2 Rb2 8_657 8_557 90 ? Cl1 Rb2 Rb2 1_655 8_557 90 ? Cl3 Rb2 Rb2 . 8_557 48.46(5) ? Cl3 Rb2 Rb2 1_565 8_557 131.54(5) ? Cl3 Rb2 Rb2 5_656 8_557 90 ? Ag1 Rb2 Rb2 . 8_557 90 ? Ag1 Rb2 Rb2 5_656 8_557 56.457(18) ? Ag1 Rb2 Rb2 5_666 8_557 123.543(18) ? Cl1 Rb2 Rb2 5_656 1_565 133.68(6) ? Cl1 Rb2 Rb2 5_666 1_565 46.32(6) ? Cl2 Rb2 Rb2 8_657 1_565 90 ? Cl1 Rb2 Rb2 1_655 1_565 90 ? Cl3 Rb2 Rb2 . 1_565 131.54(5) ? Cl3 Rb2 Rb2 1_565 1_565 48.46(5) ? Cl3 Rb2 Rb2 5_656 1_565 90 ? Ag1 Rb2 Rb2 . 1_565 90 ? Ag1 Rb2 Rb2 5_656 1_565 123.543(18) ? Ag1 Rb2 Rb2 5_666 1_565 56.457(18) ? Rb2 Rb2 Rb2 8_557 1_565 180.00(13) ? Ag1 Cl1 Rb2 . 5_656 87.36(11) ? Ag1 Cl1 Rb2 . 5_666 87.36(11) ? Rb2 Cl1 Rb2 5_656 5_666 87.36(11) ? Ag1 Cl1 Rb2 . 1_455 165.05(16) ? Rb2 Cl1 Rb2 5_656 1_455 103.34(10) ? Rb2 Cl1 Rb2 5_666 1_455 103.34(10) ? Ag1 Cl1 Rb1 . 1_565 78.96(10) ? Rb2 Cl1 Rb1 5_656 1_565 166.27(15) ? Rb2 Cl1 Rb1 5_666 1_565 93.24(4) ? Rb2 Cl1 Rb1 1_455 1_565 89.89(10) ? Ag1 Cl1 Rb1 . . 78.96(10) ? Rb2 Cl1 Rb1 5_656 . 93.24(4) ? Rb2 Cl1 Rb1 5_666 . 166.27(15) ? Rb2 Cl1 Rb1 1_455 . 89.89(10) ? Rb1 Cl1 Rb1 1_565 . 82.96(10) ? Ag1 Cl2 Rb1 . . 80.27(9) ? Ag1 Cl2 Rb1 . 1_565 80.27(9) ? Rb1 Cl2 Rb1 . 1_565 85.38(10) ? Ag1 Cl2 Rb1 . 8_657 84.88(10) ? Rb1 Cl2 Rb1 . 8_657 165.14(13) ? Rb1 Cl2 Rb1 1_565 8_657 92.79(3) ? Ag1 Cl2 Rb1 . 8_667 84.88(10) ? Rb1 Cl2 Rb1 . 8_667 92.79(3) ? Rb1 Cl2 Rb1 1_565 8_667 165.14(13) ? Rb1 Cl2 Rb1 8_657 8_667 85.20(11) ? Ag1 Cl2 Rb2 . 8_547 175.71(17) ? Rb1 Cl2 Rb2 . 8_547 102.82(10) ? Rb1 Cl2 Rb2 1_565 8_547 102.82(10) ? Rb1 Cl2 Rb2 8_657 8_547 91.97(9) ? Rb1 Cl2 Rb2 8_667 8_547 91.97(9) ? Ag1 Cl3 Ag1 8_557 . 118.93(17) ? Ag1 Cl3 Rb2 8_557 . 161.83(14) ? Ag1 Cl3 Rb2 . . 78.92(5) ? Ag1 Cl3 Rb2 8_557 8_557 78.92(5) ? Ag1 Cl3 Rb2 . 8_557 161.83(14) ? Rb2 Cl3 Rb2 . 8_557 83.08(11) ? Ag1 Cl3 Rb1 8_557 8_667 81.94(10) ? Ag1 Cl3 Rb1 . 8_667 81.94(10) ? Rb2 Cl3 Rb1 . 8_667 98.35(10) ? Rb2 Cl3 Rb1 8_557 8_667 98.35(10) ? Ag1 Cl3 Rb2 8_557 5_656 81.35(11) ? Ag1 Cl3 Rb2 . 5_656 81.35(11) ? Rb2 Cl3 Rb2 . 5_656 106.32(10) ? Rb2 Cl3 Rb2 8_557 5_656 106.32(10) ? Rb1 Cl3 Rb2 8_667 5_656 146.76(14) ? loop_ _geom_bond_atom_site_label_1 _geom_bond_atom_site_label_2 _geom_bond_site_symmetry_2 _geom_bond_distance _geom_bond_publ_flag Ag1 Cl1 . 2.587(5) y Ag1 Cl2 . 2.602(4) y Ag1 Cl3 1_565 2.602(2) ? Ag1 Cl3 . 2.602(2) y Ag1 Rb1 . 3.8457(19) ? Ag1 Rb1 1_565 3.8457(19) ? Ag1 Rb2 . 3.848(3) ? Ag1 Rb1 8_657 4.0243(19) ? Ag1 Rb1 8_667 4.0243(19) ? Ag1 Rb2 5_656 4.0558(19) ? Ag1 Rb2 5_666 4.0558(19) ? Rb1 Cl2 . 3.305(3) ? Rb1 Cl2 8_557 3.305(3) ? Rb1 Cl2 2_446 3.311(3) ? Rb1 Cl2 8_547 3.311(3) ? Rb1 Cl1 8_557 3.384(3) ? Rb1 Cl1 . 3.384(3) ? Rb1 Cl3 2_446 3.456(4) ? Rb1 Ag1 8_557 3.8457(19) ? Rb1 Ag1 8_547 4.0243(19) ? Rb1 Ag1 2_446 4.0243(19) ? Rb1 Rb1 8_557 4.4822(10) ? Rb2 Cl1 5_656 3.245(3) ? Rb2 Cl1 5_666 3.245(3) ? Rb2 Cl2 8_657 3.313(4) ? Rb2 Cl1 1_655 3.360(5) ? Rb2 Cl3 . 3.379(4) ? Rb2 Cl3 1_565 3.379(3) ? Rb2 Cl3 5_656 3.527(5) ? Rb2 Ag1 5_656 4.0558(19) ? Rb2 Ag1 5_666 4.0558(19) ? Rb2 Rb2 8_557 4.4822(10) ? Rb2 Rb2 1_565 4.4822(10) ? Cl1 Rb2 5_656 3.245(3) ? Cl1 Rb2 5_666 3.245(3) ? Cl1 Rb2 1_455 3.360(5) ? Cl1 Rb1 1_565 3.384(3) ? Cl2 Rb1 1_565 3.305(3) ? Cl2 Rb1 8_657 3.311(3) ? Cl2 Rb1 8_667 3.311(3) ? Cl2 Rb2 2_446 3.313(4) ? Cl3 Ag1 8_557 2.602(2) ? Cl3 Rb2 8_557 3.379(3) ? Cl3 Rb1 8_657 3.456(4) ? Cl3 Rb2 5_656 3.527(5) ?