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Acta Crystallographica Section E: Crystallographic Communications logoLink to Acta Crystallographica Section E: Crystallographic Communications
. 2021 Jun 25;77(Pt 7):734–738. doi: 10.1107/S2056989021006022

Crystal structure of silver carbonate iodide Ag10(CO3)3I4

Ryoji Suzuki a, Yuta Watanabe a, Hisanori Yamane b, Mamoru Kitaura c, Kento Uchida a, Yuta Matsushima a,*
PMCID: PMC8382059  PMID: 34513021

The new silver carbonate iodide, Ag10(CO3)3I4, comprises layers of I atoms, Ag atoms, and CO3 groups stacked along [10Inline graphic].

Keywords: crystal structure, silver carbonate iodide, layered structure

Abstract

The title silver carbonate iodide, Ag10(CO3)3I4, deca­silver(I) tris­(carbonate) tetra­iodide, was recently reported as a precursor of the new superionic conductor Ag17(CO3)3I11. Ag10(CO3)3I4, was prepared by heating a stoichiometric powder mixture of AgI and Ag2CO3 at 430 K. A single-crystal suitable for X-ray diffraction analysis was obtained by slow cooling of a melt with an AgI-rich composition down from 453 K. Ag10(CO3)3I4 exhibits a layered crystal structure packed along [10Inline graphic], in which Ag atoms are inter­calated between the layers of hexa­gonally close-packed I atoms, and CO3 groups. Up to now, Cs3Pb2(CO3)3I is the only other compound containing carbonate groups and iodide ions registered in the Inorganic Crystal Structure Database.

Chemical context  

α-AgI is a representative superionic conductor of silver ions (Tubandt & Lorenz, 1914; Boyce & Huberman, 1979), which is synthesized at 420 K from wurzite-type β-AgI and is stable above the phase transition temperature. Many ternary and quaternary compounds containing Ag and I, such as β-Ag3SI (Takahashi & Yamamoto, 1966), Ag4RbI5 (Owens & Argue, 1967,1970; Geller, 1967; Bradley & Greene, 1967a ,b ), Ag4KI5 (Owens & Argue, 1967; Bradley & Greene, 1966,1967b ), Ag3KI4 (Takahashi et al., 1970), Ag19I15P2O7, Ag7I4PO4 (Takahashi et al., 1972), Ag6I4WO4 (Takahashi et al., 1973), and Ag7(AsO4)I4 and Ag7I4VO4 (Scrosati et al., 1975) have been synthesized and investigated as silver ion conductors. The crystal structures and Ag+ ionic conductivity of several silver compounds prepared by combining AgI and a silver oxyanion salt have also been reported (see Database survey). However, our recent report on the new superionic conductor Ag17(CO3)3I11 (Watanabe et al., 2021) was the first example of a compound in the AgI–Ag2CO3 pseudo-binary system. The superionic conductor Ag17(CO3)3I11 was prepared by a reaction between AgI and another silver carbonate iodide, i.e., Ag10(CO3)3I4. Herein, we report the crystal structure analysis of Ag10(CO3)3I4 by single-crystal X-ray diffraction (XRD). It should be noted that Cs3Pb2(CO3)3I (Liu et al., 2016) is the only other compound containing carbonate groups and an iodide ion in its chemical composition that can be currently found in the Inorganic Crystal Structure Database (ICSD; Zagorac et al., 2019).

A bulk Ag10(CO3)3I4 sample showed an ionic conductivity of 4.4×10−6 S cm−1 at room temperature (RT) in the alternating-current impedance method using evaporated Au electrodes. This value is comparable with that of Ag13(AsO4)3I4 (6.4×10−6 S m−1 at 303 K; Pitzschke et al., 2009a ) and Ag4IPO4 (3×10−6 S m−1 at RT; Oleneva et al., 2008).

Structural commentary  

Ag10(CO3)3I4 crystallizes in a monoclinic cell with the space group P21/c. The asymmetric unit of the structure comprises 40 sites for Ag, 16 for I, 12 for C, and 36 for O. The Ag atoms are aligned parallel to (10Inline graphic), and an Ag layer is sandwiched between a CO3 layer and the hexa­gonally aligned I layer, as shown in Fig. 1. The atomic arrangement of Ag and I atoms and CO3 groups in the layers is projected on (10Inline graphic) in Fig. 1, and along [101] and [010] in Fig. 2 a and Fig. 2 b, respectively. Reflecting the complexity of the crystal structure, there is a large variation in the inter­atomic distances. The shortest inter­atomic distance for each atom pair (Ag—O, Ag⋯Ag, Ag—I, etc.) is listed in Table 1.

Figure 1.

Figure 1

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Arrangement of Ag and I atoms and CO3 groups in the crystal structure of Ag10(CO3)3I4 projected on (10Inline graphic). Displacement ellipsoids are drawn at the 99% probability level.

Figure 2.

Figure 2

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Projections of the crystal structure of Ag10(CO3)3I4 along [101] (a) and [010] (b).

Table 1. Shortest inter­atomic distances (Å) in the crystal structure of Ag10(CO3)3I4 .

Atom pair Distance
Ag12—O23 2.252 (9)
Ag7—I6 2.7140 (14)
Ag26⋯Ag32 (in-layer) 2.9901 (15)
Ag13⋯Ag33 (out-of-layer; across CO3 layer) 3.0620 (15)
Ag17⋯Ag27i (out-of-layer; across I layer) 2.9507 (15)
I10⋯I12ii 3.9564 (11)
C1—O1iii (within a CO3 group) 1.251 (15)
O25⋯O26 (within a CO3 group) 2.206 (14)
O15⋯O25 (between different CO3 groups) 2.816 (15)
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Symmetry code: (i) x, −y + {1\over 2}, z − {1\over 2}; (ii) −x, −y + 1, −z + 1; (iii) x + 1, y + {1\over 2}, z + {1\over 2}.

Fundamental reflections in the XRD pattern were observed at every eight spots along the b* axis in the reciprocal space (Fig. S1 in the supporting information), and a period of b/8 = ∼4.43 Å corresponds to the average I⋯I distance in the layer of two-dimensionally closely packed I atoms along the b axis. The average I⋯I distance is slightly shorter than that of the close-packed I atom layer of β-AgI [4.5910 (11) Å; Yoshiasa et al., 1987]. The shortest I⋯I length of 3.9564 (11) Å for I10–I12 in Ag10(CO3)3I4 lies between the values observed in Ag13(AsO4)3I4 [3.9063 (9) Å; Pitzschke et al., 2009a ] and Ag26I18(WO4)4 [4.03 (3) Å; Chan & Geller, 1977].

The CO3 groups are aligned on approximately every b/4 period with the oxygen atoms oriented in different directions. The C—O bond lengths are in the range from 1.251 (15) Å for C1—O1 to 1.328 (15) Å for C1—O3, with the average length being 1.290 Å, which is longer than the C—O length in Ag2CO3 (1.274 Å; Norby et al., 2002) but close to those in CaCO3 (1.282 Å; Maslen et al., 1995) and other calcite-type carbonates [1.2852 (4) Å in MgCO3, 1.2867 (5) Å in MnCO3, 1.2869 (5) Å in FeCO3, 1.2859 (6) Å in ZnCO3, and 1.2853 (4) Å in CaMg(CO3)2; Effenberger et al., 1981]. The short O⋯O distance of 2.816 (15) Å for O15⋯O25 belonging to different CO3 groups is close to 2.85 Å as observed in MgCO3 and ZnCO3 (Effenberger et al., 1981).

The Ag atoms are coordinated by two or three I atoms, and two, three, or four O atoms of the CO3 groups, with average distances of 3.20 Å for Ag—I and 2.85 Å for Ag—O. The shortest Ag—I bond length of 2.7140 (14) Å for Ag7—I6 is comparable with that found in Ag13(AsO4)3I4 [2.701 (1) Å; Pitzschke et al., 2009a ] but shorter than the Ag—I bond lengths in β-AgI [2.8112 (10) and 2.819 (3) Å; Yoshiasa et al., 1987]. The shortest Ag—O length is 2.252 (9) Å for Ag12—O23, which is slightly longer than the shortest Ag—O length in Ag2CO3 (2.245 Å; Norby et al., 2002).

The shortest Ag⋯Ag distance of 2.9507 (15) Å is observed between Ag17 and Ag27 generated in another Ag layer across the I layer by the symmetry operation x, −y + Inline graphic, z − Inline graphic. The second shortest Ag⋯Ag distance is 2.9901 (15) Å and corresponds to Ag26⋯Ag32 in the same Ag layer. The shortest Ag⋯Ag distance across the CO3 layer is 3.0620 (15) Å for Ag13⋯Ag33. These distances are comparable with the Ag⋯Ag distances reported for Ag2CO3 [2.8731 (10) Å; Norby et al., 2002], Ag8(CrO4)3I2 [2.8797 (8) Å; Pitzschke et al., 2009b ], and Ag3I(NO3)2 [2.942 (8) Å; Birnstock & Britton, 1970]. Such short Ag⋯Ag distances are known to stem from the argentophilic d 10d 10 inter­actions between Ag+ cations (Schmidbaur & Schier, 2015; Jansen, 1987).

Database survey  

The crystal structures of quaternary inorganic compounds composed of silver and iodide ions and oxyanionic groups, such as Ag2I(NO3)2 (Birnstock & Britton, 1970), Ag16I12P2O7 (Garrett et al., 1982), Ag5IP2O7 (Adams & Preusser, 1999), Ag4IPO4 (Oleneva et al., 2008), Ag8(CrO4)3I2 (Pitzschke et al., 2009b ), Ag9(GeO4)2I (Pitzschke et al., 2009c ), Ag8I4V2O7 (Adams, 1996), Ag13(AsO4)3I4 (Pitzschke et al., 2009a ), Ag4I2SeO4 (Pitzschke et al., 2008a ), Ag3ITeO4 (Pitzschke et al., 2008a ), Ag9I3(IO3)2(SeO4)2 (Pitzschke et al., 2008b ) and Ag26I18(WO4)4 (Chan & Geller, 1977) have been reported.

Synthesis and crystallization  

As starting materials, powders of AgI and Ag2CO3 were prepared by precipitation from aqueous solutions containing AgNO3 (99.8%, Kanto Chemical) and KI (99.5%, Kanto Chemical) at 323 K, and aqueous solutions of AgNO3 and (NH4)2CO3 (>30%wt as NH3, Kanto Chemical) at RT, respectively. The obtained polycrystalline solids were thoroughly mixed in an agate mortar at a molar ratio of 4:3 using a small amount of water as a mixing medium.

A bulk brownish sample was prepared at 430 K in a glass tube with one end open. The sample was then powdered with an agate mortar and subjected to powder XRD analysis using a Rigaku MiniFlex 600 powder X-ray diffractometer with Cu Kα radiation (λ = 1.54183 Å) and a 1D detector (Rigaku D/teX Ultra 250).

As for many other silver compounds, Ag10(CO3)3I4 is photo-sensitive. In contrast, Ag10(CO3)3I4 is thermally stable against heat treatment in air; no substantial mass change was observed up to 473 K in a thermogravimetric and differential thermal analysis (TG–DTA, Rigaku Thermo Evo) (Fig. S2), which was performed under a constant dry air flow of 100 sccm at a ramp rate of 3 K min−1, indicating that neither a thermal decomposition nor oxidation occurred. An endothermic effect around 443 K, which can be attributed to the melting of Ag10(CO3)3I4, was observed in the TG–DTA analysis. A sample suitable for single-crystal XRD was prepared by subjecting a mixture of the starting powders containing a slight AgI excess composition (AgI:Ag2CO3 = 4.2:3) to the following heat treatment: after heating to 453 K at a ramp rate of 300 K h−1, this temperature was held for 15 min, followed by cooling to 373 K at 1 K h−1. The solidified sample was soft and easy to cut with a knife; however, all specimens obtained by cutting showed diffuse XRD spots and were not suitable for single-crystal XRD measurement. Relatively sharp XRD spots were observed from a fragment with a size of 252×245×78 µm, which was spontaneously and accidentally separated by cracking. The surface of the fragment was black and covered with polycrystalline Ag, which was presumably formed by photodegradation during handling. The fragment was fixed on a glass fiber with an ep­oxy resin and mounted on a goniometer under red light through a color filter from an LED lamp, and the XRD data were collected at 90 K with an open-flow nitro­gen gas cooler (Oxford Cobra) in the dark.

Refinement  

Crystal data, data collection and structure refinement details are summarized in Table 2. The initial structure model of the space group P21/c was obtained by intrinsic phasing in the APEX3 package (Bruker, 2017). Large positive and negative difference-Fourier peaks were observed, a feature that was probably caused by reflections overlapped with Debye–Scherrer rings from polycrystalline Ag metal on the surface of the crystal (Fig. S1). From the total independent 16240 reflections, 672 reflection data were excluded to lower the difference level within 2.6 e Å−3 with R1 = 0.0573 for 13157 [F o > 4σ (F o)] and 0.0689 for all 15568 data with GooF(S) = 1.140. The space groups P21, Pc, and P1 with twin models were also tested; however, neither further effective improvement of the R values nor reduction of the residual densities was achieved. The anisotropic displacement parameters of O2, O10, and O15 and the carbon sites were restrained with the ISOR command of SHELXL (Sheldrick, 2015b ) in the final refinement. A Rietveld analysis (Rigaku, 2018) based on the structural model determined by single-crystal XRD led to monoclinic unit-cell parameters of a = 14.2865 (7), b = 35.5959 (18), c = 17.0182 (8) Å, and β = 122.493 (2)° at RT with R F/wR = 0.0294/0.0436 (Fig.  S3), which validates the structural model determined by single-crystal XRD analysis.

Table 2. Experimental details.

Crystal data
Chemical formula Ag10(CO3)3I4
M r 1766.33
Crystal system, space group Monoclinic, P21/c
Temperature (K) 90
a, b, c (Å) 14.2342 (11), 35.421 (3), 16.9683 (12)
β (°) 122.725 (3)
V3) 7197.3 (10)
Z 16
Radiation type Mo Kα
μ (mm−1) 17.53
Crystal size (mm) 0.25 × 0.25 × 0.08
 
Data collection
Diffractometer Bruker D8 goniometer
Absorption correction Multi-scan (SADABS; Krause et al., 2015)
Tmin, Tmax 0.376, 0.746
No. of measured, independent and observed [I > 2σ(I)] reflections 75437, 15568, 13140
R int 0.043
(sin θ/λ)max−1) 0.649
 
Refinement
R[F2 > 2σ(F 2)], wR(F 2), S 0.057, 0.126, 1.14
No. of reflections 15568
No. of parameters 937
No. of restraints 90
Δρmax, Δρmin (e Å−3) 2.22, −2.62
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Computer programs: APEX3 (Bruker, 2017), SAINT (Bruker, 2017), SHELXT (Sheldrick, 2015a ), SHELXL (Sheldrick, 2015b ), VESTA (Momma & Izumi, 2011), and pubCIF (Westrip, 2010).

Supplementary Material

Crystal structure: contains datablock(s) global, I. DOI: 10.1107/S2056989021006022/wm5603sup1.cif

e-77-00734-sup1.cif (3.5MB, cif)

Structure factors: contains datablock(s) I. DOI: 10.1107/S2056989021006022/wm5603Isup2.hkl

e-77-00734-Isup2.hkl (1.2MB, hkl)

Rietveld powder data: contains datablock(s) I. DOI: 10.1107/S2056989021006022/wm5603Isup4.rtv

e-77-00734-Isup4.rtv (389KB, rtv)

Supplementary figures (Figs. S1-S3). DOI: 10.1107/S2056989021006022/wm5603sup3.pdf

e-77-00734-sup3.pdf (995.5KB, pdf)

CCDC reference: 2088991

Additional supporting information: crystallographic information; 3D view; checkCIF report

Acknowledgments

This work was performed under the Cooperative Research Program of Network Joint Research Center for Materials and Devices.

supplementary crystallographic information

Crystal data

Ag10(CO3)3I4 F(000) = 12352
Mr = 1766.33 Dx = 6.520 Mg m3
Monoclinic, P21/c Mo Kα radiation, λ = 0.71073 Å
a = 14.2342 (11) Å Cell parameters from 4917 reflections
b = 35.421 (3) Å θ = 2.7–35.6°
c = 16.9683 (12) Å µ = 17.53 mm1
β = 122.725 (3)° T = 90 K
V = 7197.3 (10) Å3 Platelet, brown transparent (black agi precipiated on the surface)
Z = 16 0.25 × 0.25 × 0.08 mm
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Data collection

Bruker D8 goniometer diffractometer 15568 independent reflections
Radiation source: micro focus sealed tube 13140 reflections with I > 2σ(I)
Detector resolution: 7.3910 pixels mm-1 Rint = 0.043
ω scans θmax = 27.5°, θmin = 2.1°
Absorption correction: multi-scan (SADABS; Krause et al., 2015) h = −18→18
Tmin = 0.376, Tmax = 0.746 k = −45→46
75437 measured reflections l = −22→22
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Refinement

Refinement on F2 90 restraints
Least-squares matrix: full Primary atom site location: structure-invariant direct methods
R[F2 > 2σ(F2)] = 0.057 w = 1/[σ2(Fo2) + (0.0103P)2 + 615.6616P] where P = (Fo2 + 2Fc2)/3
wR(F2) = 0.126 (Δ/σ)max = 0.001
S = 1.14 Δρmax = 2.22 e Å3
15568 reflections Δρmin = −2.61 e Å3
937 parameters
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Special details

Geometry. All esds (except the esd in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell esds are taken into account individually in the estimation of esds in distances, angles and torsion angles; correlations between esds in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell esds is used for estimating esds involving l.s. planes.
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Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2)

x y z Uiso*/Ueq
Ag1 0.08682 (9) 0.06634 (3) 0.20445 (7) 0.0138 (2)
Ag2 0.27633 (10) 0.03132 (3) 0.41983 (8) 0.0169 (2)
Ag3 0.55662 (9) 0.46648 (3) 0.19380 (7) 0.0150 (2)
Ag4 0.26078 (8) 0.57090 (3) 0.60251 (7) 0.01221 (19)
Ag5 0.03496 (8) 0.15772 (3) 0.17435 (7) 0.0125 (2)
Ag6 0.23310 (9) 0.18599 (3) 0.38229 (8) 0.0156 (2)
Ag7 0.43490 (10) 0.37201 (3) 0.05335 (8) 0.0184 (2)
Ag8 0.57487 (9) 0.31065 (3) 0.19823 (7) 0.0148 (2)
Ag9 0.25196 (9) 0.84280 (3) 0.09874 (7) 0.0160 (2)
Ag10 0.07104 (9) 0.75160 (3) 0.45762 (8) 0.0156 (2)
Ag11 0.07064 (9) 0.31349 (3) 0.19972 (7) 0.0156 (2)
Ag12 0.24584 (10) 0.27747 (3) 0.39764 (8) 0.0180 (2)
Ag13 0.55343 (9) 0.21817 (3) 0.18150 (8) 0.0157 (2)
Ag14 0.27216 (9) 0.67637 (3) 0.12176 (7) 0.0126 (2)
Ag15 0.05820 (8) 0.40832 (3) 0.19626 (7) 0.0130 (2)
Ag16 0.24072 (8) 0.44444 (3) 0.40286 (7) 0.0129 (2)
Ag17 0.42669 (9) 0.12869 (3) 0.03557 (7) 0.0136 (2)
Ag18 0.58339 (9) 0.05792 (3) 0.20303 (7) 0.0132 (2)
Ag19 0.22274 (9) 0.59037 (3) 0.06770 (8) 0.0181 (2)
Ag20 0.04730 (9) 0.00277 (3) 0.43913 (7) 0.0156 (2)
Ag21 0.08463 (9) 0.56456 (3) 0.20467 (7) 0.0129 (2)
Ag22 0.24736 (9) 0.53034 (3) 0.40259 (7) 0.0143 (2)
Ag23 0.46246 (8) 0.47035 (3) 0.32099 (7) 0.0122 (2)
Ag24 0.27468 (9) 0.42928 (3) 0.12342 (8) 0.0154 (2)
Ag25 0.04870 (8) 0.65006 (3) 0.19101 (7) 0.0132 (2)
Ag26 0.76530 (9) 0.19821 (3) 0.10542 (7) 0.0129 (2)
Ag27 0.57192 (9) 0.37693 (3) 0.46144 (7) 0.0137 (2)
Ag28 0.41143 (9) 0.30561 (3) 0.29182 (7) 0.0141 (2)
Ag29 0.22283 (10) 0.34487 (3) 0.07409 (8) 0.0178 (2)
Ag30 0.05501 (9) 0.24478 (3) 0.44679 (8) 0.0165 (2)
Ag31 0.08436 (9) 0.81768 (3) 0.20002 (7) 0.0131 (2)
Ag32 0.73211 (9) 0.28175 (3) 0.08057 (7) 0.0157 (2)
Ag33 0.45882 (8) 0.21862 (3) 0.30624 (7) 0.0128 (2)
Ag34 0.26225 (8) 0.18464 (3) 0.09611 (7) 0.0134 (2)
Ag35 0.03659 (8) 0.59658 (3) 0.67807 (7) 0.0125 (2)
Ag36 0.77018 (9) 0.44587 (3) 0.11381 (8) 0.0152 (2)
Ag37 0.54741 (9) 0.12430 (3) 0.44344 (7) 0.0145 (2)
Ag38 0.42942 (9) 0.05817 (3) 0.30366 (7) 0.0153 (2)
Ag39 0.24947 (9) 0.09758 (3) 0.10141 (7) 0.0145 (2)
Ag40 0.07517 (8) 0.49697 (3) 0.46486 (7) 0.0127 (2)
C1 0.1707 (10) 0.6132 (3) 0.4045 (9) 0.006 (2)
C2 0.1744 (11) 0.1016 (4) 0.4183 (10) 0.013 (3)
C3 0.5142 (11) 0.3904 (4) 0.2635 (9) 0.010 (2)
C4 0.0037 (11) 0.2318 (4) 0.2527 (9) 0.010 (2)
C5 0.3262 (9) 0.2685 (3) 0.0821 (8) 0.003 (2)
C6 0.6713 (12) 0.2601 (4) 0.3967 (10) 0.015 (3)
C7 0.8247 (11) 0.3606 (4) 0.0936 (9) 0.009 (2)
C8 0.1722 (11) 0.3591 (4) 0.4040 (10) 0.012 (2)
C9 0.4816 (11) 0.1403 (4) 0.2353 (9) 0.009 (2)
C10 0.0167 (10) 0.4843 (3) 0.2669 (9) 0.008 (2)
C11 0.3319 (11) 0.0134 (4) 0.0990 (9) 0.010 (2)
C12 0.3234 (12) 0.5137 (4) 0.0915 (10) 0.014 (3)
O1 0.7482 (8) 0.0913 (3) 0.0498 (6) 0.0107 (18)
O2 0.0858 (8) 0.6049 (3) 0.3234 (7) 0.0104 (18)
O3 0.1689 (8) 0.6468 (3) 0.4381 (6) 0.0117 (18)
O4 0.1132 (9) 0.0778 (3) 0.3555 (7) 0.016 (2)
O5 0.2745 (8) 0.0917 (3) 0.4871 (7) 0.018 (2)
O6 0.1392 (8) 0.1358 (3) 0.4168 (8) 0.017 (2)
O7 0.4765 (8) 0.4056 (3) 0.1825 (7) 0.0133 (19)
O8 0.5459 (8) 0.4123 (3) 0.3353 (7) 0.0127 (19)
O9 0.5252 (9) 0.3548 (3) 0.2765 (8) 0.019 (2)
O10 0.0376 (8) 0.7185 (3) 0.3300 (7) 0.0116 (18)
O11 0.0329 (8) 0.2081 (3) 0.3213 (7) 0.0116 (18)
O12 0.0199 (8) 0.2671 (3) 0.2713 (7) 0.0129 (19)
O13 0.2394 (9) 0.2290 (3) 0.4959 (7) 0.021 (2)
O14 0.3574 (9) 0.2988 (3) 0.1329 (7) 0.020 (2)
O15 0.3718 (10) 0.2370 (3) 0.1167 (8) 0.024 (2)
O16 0.5860 (8) 0.2710 (3) 0.3183 (7) 0.015 (2)
O17 0.2442 (8) 0.7812 (3) 0.0509 (7) 0.016 (2)
O18 0.3342 (8) 0.7264 (3) 0.0741 (7) 0.0137 (19)
O19 0.7387 (8) 0.3610 (3) 0.0068 (7) 0.016 (2)
O20 0.1418 (8) 0.8301 (3) 0.3600 (7) 0.0126 (19)
O21 0.8723 (8) 0.3927 (3) 0.1296 (7) 0.0128 (19)
O22 0.0857 (8) 0.3514 (3) 0.3222 (7) 0.0122 (19)
O23 0.2538 (8) 0.3370 (2) 0.4474 (7) 0.0122 (19)
O24 0.1684 (8) 0.3910 (3) 0.4422 (7) 0.015 (2)
O25 0.4524 (8) 0.1625 (3) 0.1640 (6) 0.0125 (19)
O26 0.5245 (8) 0.1561 (3) 0.3156 (6) 0.0116 (18)
O27 0.4623 (8) 0.1051 (3) 0.2223 (7) 0.0138 (19)
O28 0.0239 (8) 0.5311 (3) 0.8153 (6) 0.0119 (19)
O29 0.0494 (8) 0.4614 (3) 0.3380 (6) 0.0100 (18)
O30 0.0301 (8) 0.5192 (3) 0.2810 (7) 0.0135 (19)
O31 0.2471 (8) 0.0360 (3) 0.0549 (7) 0.0116 (18)
O32 0.4167 (8) 0.0220 (3) 0.1802 (7) 0.0128 (19)
O33 0.3297 (8) 0.5180 (3) 0.5604 (7) 0.015 (2)
O34 0.3586 (9) 0.5446 (3) 0.1375 (7) 0.017 (2)
O35 0.2370 (9) 0.5143 (4) 0.0050 (8) 0.026 (3)
O36 0.3710 (9) 0.4821 (3) 0.1274 (8) 0.023 (2)
I1 0.23839 (7) 0.50353 (2) 0.75382 (6) 0.01089 (16)
I2 0.02321 (7) 0.56825 (2) 0.49450 (6) 0.00922 (16)
I3 0.51853 (7) 0.05568 (2) 0.49871 (6) 0.01051 (16)
I4 0.02890 (7) 0.31583 (2) 0.49893 (6) 0.00977 (16)
I5 0.24870 (7) 0.12856 (2) 0.25332 (6) 0.01133 (17)
I6 0.48805 (7) 0.30683 (2) 0.00222 (6) 0.01024 (16)
I7 0.74654 (7) 0.37823 (2) 0.25684 (6) 0.01038 (16)
I8 0.24565 (7) 0.24507 (2) 0.24870 (6) 0.01053 (16)
I9 0.23835 (7) 0.74699 (2) 0.25736 (6) 0.01027 (16)
I10 0.01605 (7) 0.82021 (2) 0.49369 (6) 0.01008 (16)
I11 0.52303 (7) 0.30574 (2) 0.49127 (6) 0.00945 (16)
I12 0.00636 (7) 0.06869 (2) 0.49831 (6) 0.01186 (17)
I13 0.26024 (7) 0.37760 (2) 0.24425 (6) 0.01006 (16)
I14 0.26343 (7) 0.62687 (2) 0.24731 (6) 0.01021 (16)
I15 0.47596 (7) 0.05766 (2) 0.00446 (6) 0.00997 (16)
I16 0.24648 (7) 0.49627 (2) 0.25586 (6) 0.01117 (16)
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Atomic displacement parameters (Å2)

U11 U22 U33 U12 U13 U23
Ag1 0.0155 (5) 0.0147 (5) 0.0103 (5) −0.0023 (4) 0.0063 (4) −0.0016 (4)
Ag2 0.0214 (5) 0.0133 (5) 0.0163 (5) 0.0022 (4) 0.0104 (4) −0.0014 (4)
Ag3 0.0117 (5) 0.0200 (5) 0.0125 (5) −0.0045 (4) 0.0060 (4) −0.0011 (4)
Ag4 0.0085 (4) 0.0131 (5) 0.0127 (5) 0.0004 (3) 0.0041 (4) −0.0010 (4)
Ag5 0.0108 (4) 0.0120 (5) 0.0137 (5) 0.0006 (3) 0.0060 (4) −0.0007 (4)
Ag6 0.0137 (5) 0.0197 (5) 0.0153 (5) −0.0005 (4) 0.0092 (4) −0.0015 (4)
Ag7 0.0198 (5) 0.0203 (5) 0.0127 (5) 0.0083 (4) 0.0073 (4) −0.0013 (4)
Ag8 0.0201 (5) 0.0124 (5) 0.0097 (5) 0.0007 (4) 0.0066 (4) 0.0005 (4)
Ag9 0.0224 (5) 0.0119 (5) 0.0095 (5) 0.0014 (4) 0.0060 (4) −0.0018 (4)
Ag10 0.0169 (5) 0.0145 (5) 0.0146 (5) 0.0022 (4) 0.0080 (4) −0.0036 (4)
Ag11 0.0204 (5) 0.0155 (5) 0.0095 (5) 0.0008 (4) 0.0073 (4) 0.0005 (4)
Ag12 0.0237 (6) 0.0148 (5) 0.0121 (5) 0.0031 (4) 0.0074 (4) −0.0013 (4)
Ag13 0.0123 (5) 0.0210 (5) 0.0145 (5) −0.0065 (4) 0.0076 (4) −0.0026 (4)
Ag14 0.0134 (5) 0.0141 (5) 0.0109 (5) −0.0013 (4) 0.0070 (4) 0.0019 (4)
Ag15 0.0089 (4) 0.0159 (5) 0.0133 (5) 0.0027 (4) 0.0053 (4) 0.0013 (4)
Ag16 0.0093 (4) 0.0139 (5) 0.0136 (5) −0.0010 (4) 0.0050 (4) 0.0005 (4)
Ag17 0.0133 (5) 0.0155 (5) 0.0114 (5) 0.0023 (4) 0.0063 (4) −0.0016 (4)
Ag18 0.0139 (5) 0.0148 (5) 0.0088 (5) −0.0009 (4) 0.0048 (4) −0.0010 (4)
Ag19 0.0187 (5) 0.0147 (5) 0.0185 (5) 0.0036 (4) 0.0085 (4) 0.0055 (4)
Ag20 0.0173 (5) 0.0161 (5) 0.0111 (5) 0.0035 (4) 0.0063 (4) −0.0024 (4)
Ag21 0.0158 (5) 0.0117 (5) 0.0106 (5) 0.0003 (4) 0.0066 (4) 0.0006 (4)
Ag22 0.0182 (5) 0.0115 (5) 0.0082 (5) 0.0014 (4) 0.0038 (4) −0.0006 (4)
Ag23 0.0084 (4) 0.0128 (5) 0.0138 (5) −0.0004 (3) 0.0049 (4) −0.0011 (4)
Ag24 0.0138 (5) 0.0197 (5) 0.0133 (5) −0.0020 (4) 0.0077 (4) 0.0005 (4)
Ag25 0.0104 (5) 0.0155 (5) 0.0107 (5) 0.0027 (4) 0.0039 (4) 0.0023 (4)
Ag26 0.0112 (5) 0.0116 (4) 0.0144 (5) 0.0005 (3) 0.0060 (4) −0.0025 (4)
Ag27 0.0142 (5) 0.0138 (5) 0.0125 (5) −0.0017 (4) 0.0069 (4) 0.0019 (4)
Ag28 0.0154 (5) 0.0153 (5) 0.0095 (5) −0.0011 (4) 0.0053 (4) 0.0002 (4)
Ag29 0.0236 (6) 0.0136 (5) 0.0159 (5) 0.0048 (4) 0.0105 (5) 0.0039 (4)
Ag30 0.0190 (5) 0.0178 (5) 0.0148 (5) 0.0010 (4) 0.0106 (4) −0.0034 (4)
Ag31 0.0131 (5) 0.0140 (5) 0.0091 (5) −0.0003 (4) 0.0040 (4) 0.0004 (4)
Ag32 0.0208 (5) 0.0124 (5) 0.0113 (5) −0.0035 (4) 0.0071 (4) −0.0011 (4)
Ag33 0.0106 (5) 0.0134 (5) 0.0147 (5) 0.0006 (4) 0.0069 (4) −0.0015 (4)
Ag34 0.0085 (4) 0.0161 (5) 0.0132 (5) −0.0008 (4) 0.0043 (4) −0.0014 (4)
Ag35 0.0087 (4) 0.0123 (5) 0.0142 (5) −0.0008 (3) 0.0047 (4) 0.0003 (4)
Ag36 0.0128 (5) 0.0136 (5) 0.0185 (5) 0.0020 (4) 0.0081 (4) 0.0008 (4)
Ag37 0.0155 (5) 0.0150 (5) 0.0119 (5) −0.0021 (4) 0.0066 (4) 0.0020 (4)
Ag38 0.0213 (5) 0.0147 (5) 0.0094 (5) −0.0013 (4) 0.0080 (4) −0.0011 (4)
Ag39 0.0175 (5) 0.0120 (5) 0.0097 (5) 0.0002 (4) 0.0046 (4) −0.0025 (4)
Ag40 0.0119 (5) 0.0134 (5) 0.0113 (5) 0.0021 (4) 0.0052 (4) −0.0010 (4)
C1 0.006 (2) 0.006 (2) 0.006 (2) 0.0001 (10) 0.0032 (14) −0.0001 (10)
C2 0.013 (3) 0.013 (3) 0.013 (3) 0.0002 (10) 0.0069 (16) −0.0003 (10)
C3 0.010 (3) 0.010 (3) 0.010 (3) −0.0003 (10) 0.0053 (15) 0.0001 (10)
C4 0.010 (3) 0.010 (3) 0.010 (3) 0.0001 (10) 0.0054 (15) 0.0003 (10)
C5 0.003 (2) 0.003 (2) 0.003 (2) 0.0000 (10) 0.0019 (14) 0.0001 (10)
C6 0.016 (3) 0.016 (3) 0.015 (3) 0.0000 (10) 0.0085 (17) −0.0001 (10)
C7 0.009 (2) 0.009 (2) 0.009 (2) 0.0004 (10) 0.0048 (15) −0.0003 (10)
C8 0.012 (3) 0.012 (3) 0.011 (3) −0.0003 (10) 0.0063 (16) 0.0000 (10)
C9 0.009 (2) 0.009 (2) 0.009 (2) 0.0002 (10) 0.0048 (15) −0.0002 (10)
C10 0.008 (2) 0.008 (2) 0.008 (2) −0.0001 (10) 0.0041 (15) 0.0006 (10)
C11 0.010 (3) 0.010 (3) 0.010 (3) −0.0002 (10) 0.0054 (15) −0.0001 (10)
C12 0.014 (3) 0.014 (3) 0.014 (3) 0.0001 (10) 0.0079 (16) −0.0003 (10)
O1 0.013 (4) 0.007 (4) 0.009 (4) 0.001 (3) 0.004 (4) 0.000 (3)
O2 0.010 (2) 0.010 (2) 0.010 (2) 0.0000 (10) 0.0052 (13) −0.0005 (10)
O3 0.016 (5) 0.012 (4) 0.006 (4) 0.000 (4) 0.006 (4) 0.000 (3)
O4 0.021 (5) 0.015 (5) 0.013 (5) −0.001 (4) 0.009 (4) −0.004 (4)
O5 0.012 (5) 0.018 (5) 0.016 (5) 0.002 (4) 0.002 (4) 0.006 (4)
O6 0.010 (5) 0.016 (5) 0.027 (6) 0.001 (4) 0.011 (4) −0.001 (4)
O7 0.012 (5) 0.018 (5) 0.008 (5) −0.003 (4) 0.004 (4) −0.003 (4)
O8 0.013 (5) 0.014 (5) 0.008 (5) −0.002 (4) 0.004 (4) −0.002 (4)
O9 0.025 (6) 0.010 (5) 0.030 (6) 0.003 (4) 0.018 (5) 0.003 (4)
O10 0.012 (2) 0.012 (2) 0.011 (2) −0.0003 (10) 0.0060 (13) 0.0002 (10)
O11 0.012 (4) 0.009 (4) 0.010 (5) 0.000 (3) 0.004 (4) −0.001 (3)
O12 0.018 (5) 0.006 (4) 0.021 (5) 0.001 (4) 0.015 (4) 0.002 (4)
O13 0.013 (5) 0.029 (6) 0.014 (5) 0.000 (4) 0.002 (4) −0.005 (4)
O14 0.020 (5) 0.024 (6) 0.014 (5) 0.004 (4) 0.009 (5) 0.006 (4)
O15 0.023 (3) 0.024 (3) 0.024 (3) 0.0003 (10) 0.0129 (15) 0.0003 (10)
O16 0.012 (5) 0.023 (5) 0.009 (5) 0.001 (4) 0.006 (4) −0.004 (4)
O17 0.010 (5) 0.016 (5) 0.019 (5) 0.001 (4) 0.005 (4) 0.001 (4)
O18 0.017 (5) 0.016 (5) 0.016 (5) 0.003 (4) 0.014 (4) 0.001 (4)
O19 0.016 (5) 0.019 (5) 0.009 (5) 0.001 (4) 0.004 (4) −0.004 (4)
O20 0.019 (5) 0.014 (5) 0.009 (5) 0.001 (4) 0.010 (4) 0.001 (4)
O21 0.007 (4) 0.012 (4) 0.016 (5) −0.005 (3) 0.004 (4) −0.007 (4)
O22 0.016 (5) 0.014 (5) 0.007 (4) 0.001 (4) 0.007 (4) 0.001 (4)
O23 0.011 (4) 0.005 (4) 0.011 (5) 0.003 (3) 0.000 (4) −0.001 (3)
O24 0.013 (5) 0.015 (5) 0.017 (5) 0.005 (4) 0.007 (4) 0.005 (4)
O25 0.009 (4) 0.014 (5) 0.006 (4) −0.004 (3) −0.001 (4) 0.002 (4)
O26 0.013 (5) 0.018 (5) 0.005 (4) 0.003 (4) 0.006 (4) 0.001 (4)
O27 0.012 (5) 0.011 (4) 0.014 (5) 0.001 (4) 0.004 (4) −0.003 (4)
O28 0.013 (5) 0.011 (4) 0.006 (4) −0.003 (3) 0.001 (4) −0.006 (3)
O29 0.008 (4) 0.010 (4) 0.008 (4) −0.001 (3) 0.002 (4) 0.002 (3)
O30 0.013 (5) 0.009 (4) 0.019 (5) −0.002 (3) 0.009 (4) 0.000 (4)
O31 0.011 (4) 0.013 (4) 0.010 (5) 0.002 (3) 0.005 (4) 0.003 (4)
O32 0.009 (4) 0.012 (4) 0.011 (5) −0.003 (3) 0.001 (4) 0.005 (4)
O33 0.018 (5) 0.012 (5) 0.010 (5) −0.003 (4) 0.005 (4) 0.006 (4)
O34 0.029 (6) 0.013 (5) 0.008 (5) −0.004 (4) 0.009 (4) −0.001 (4)
O35 0.010 (5) 0.048 (7) 0.016 (5) −0.011 (5) 0.004 (4) −0.002 (5)
O36 0.022 (6) 0.017 (5) 0.031 (6) −0.002 (4) 0.015 (5) −0.001 (5)
I1 0.0093 (4) 0.0134 (4) 0.0081 (4) −0.0014 (3) 0.0035 (3) −0.0009 (3)
I2 0.0090 (4) 0.0099 (4) 0.0070 (4) −0.0008 (3) 0.0032 (3) 0.0001 (3)
I3 0.0110 (4) 0.0106 (4) 0.0087 (4) 0.0012 (3) 0.0045 (3) 0.0018 (3)
I4 0.0097 (4) 0.0107 (4) 0.0075 (4) −0.0008 (3) 0.0037 (3) 0.0001 (3)
I5 0.0087 (4) 0.0119 (4) 0.0092 (4) −0.0005 (3) 0.0022 (3) −0.0018 (3)
I6 0.0119 (4) 0.0114 (4) 0.0086 (4) −0.0006 (3) 0.0063 (3) −0.0012 (3)
I7 0.0087 (4) 0.0119 (4) 0.0082 (4) −0.0006 (3) 0.0029 (3) 0.0009 (3)
I8 0.0087 (4) 0.0124 (4) 0.0079 (4) 0.0002 (3) 0.0028 (3) −0.0004 (3)
I9 0.0094 (4) 0.0129 (4) 0.0071 (4) 0.0016 (3) 0.0035 (3) 0.0010 (3)
I10 0.0107 (4) 0.0102 (4) 0.0080 (4) 0.0001 (3) 0.0041 (3) −0.0010 (3)
I11 0.0103 (4) 0.0097 (4) 0.0069 (4) 0.0007 (3) 0.0037 (3) 0.0003 (3)
I12 0.0153 (4) 0.0096 (4) 0.0087 (4) −0.0010 (3) 0.0052 (3) −0.0010 (3)
I13 0.0080 (4) 0.0126 (4) 0.0083 (4) 0.0012 (3) 0.0035 (3) 0.0019 (3)
I14 0.0087 (4) 0.0124 (4) 0.0085 (4) 0.0014 (3) 0.0040 (3) 0.0025 (3)
I15 0.0094 (4) 0.0109 (4) 0.0082 (4) −0.0002 (3) 0.0038 (3) 0.0000 (3)
I16 0.0087 (4) 0.0136 (4) 0.0081 (4) 0.0011 (3) 0.0025 (3) −0.0001 (3)
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Geometric parameters (Å, º)

Ag1—O4 2.416 (10) Ag30—I4 2.7587 (14)
Ag1—O30i 2.462 (10) Ag30—O12 2.852 (10)
Ag1—O2i 2.621 (9) Ag30—I10ix 2.9063 (14)
Ag1—I2i 2.8525 (13) Ag30—Ag10ix 3.0022 (15)
Ag1—I5 2.9644 (13) Ag30—Ag31i 3.3862 (15)
Ag1—I1ii 3.0865 (13) Ag31—O20 2.415 (9)
Ag1—Ag5 3.2978 (15) Ag31—O12x 2.536 (10)
Ag1—Ag2 3.3930 (16) Ag31—O22x 2.538 (10)
Ag2—O35iii 2.427 (13) Ag31—I4x 2.8487 (13)
Ag2—O5 2.432 (11) Ag31—I7vi 3.0043 (13)
Ag2—O4 2.561 (10) Ag31—I9 3.1169 (13)
Ag2—I1ii 2.8469 (14) Ag31—Ag35viii 3.0904 (14)
Ag2—I3 3.0712 (14) Ag31—Ag30x 3.3862 (15)
Ag2—Ag36iv 3.0846 (15) Ag32—O18xi 2.277 (10)
Ag3—O36 2.310 (11) Ag32—O20iv 2.284 (10)
Ag3—O7 2.398 (10) Ag32—I9iv 2.8293 (14)
Ag3—I1v 2.7620 (13) Ag32—I6 3.1036 (14)
Ag3—O32vi 2.777 (9) Ag32—Ag10iv 3.3724 (16)
Ag3—I3ii 3.1508 (14) Ag33—O26 2.376 (10)
Ag3—Ag23 3.0984 (15) Ag33—O16 2.522 (10)
Ag3—Ag38vi 3.2525 (15) Ag33—O18iv 2.532 (10)
Ag3—Ag4v 3.2774 (15) Ag33—I8 2.7989 (13)
Ag4—O33 2.395 (11) Ag33—O15 2.827 (12)
Ag4—O8v 2.430 (10) Ag33—I6iii 3.2480 (14)
Ag4—O1vi 2.620 (10) Ag34—O15 2.323 (11)
Ag4—I2 2.8465 (13) Ag34—O25 2.429 (10)
Ag4—I7v 3.0366 (13) Ag34—O23ii 2.577 (10)
Ag4—Ag9vii 3.0588 (15) Ag34—I4ii 2.7982 (13)
Ag4—Ag3v 3.2774 (15) Ag34—I5 3.4141 (14)
Ag5—O10i 2.372 (9) Ag34—Ag39 3.0935 (15)
Ag5—O3i 2.495 (10) Ag35—O29ix 2.330 (9)
Ag5—O2i 2.556 (9) Ag35—O22ix 2.534 (10)
Ag5—I5 2.7769 (13) Ag35—O24ix 2.536 (10)
Ag5—I4ii 3.0768 (14) Ag35—I7v 2.8033 (13)
Ag5—Ag25i 3.1071 (15) Ag35—O21v 2.811 (10)
Ag5—Ag6 3.2630 (15) Ag35—I2 3.1788 (14)
Ag6—O13 2.420 (11) Ag35—Ag15ix 3.0836 (15)
Ag6—O6 2.478 (10) Ag35—Ag31vii 3.0902 (14)
Ag6—O11 2.572 (10) Ag36—O21 2.303 (10)
Ag6—I6iii 3.0645 (14) Ag36—O35xi 2.417 (12)
Ag6—I5 3.0827 (14) Ag36—O28v 2.626 (10)
Ag6—I8 3.1602 (14) Ag36—I1v 2.9272 (14)
Ag6—Ag12 3.2479 (16) Ag36—I3ii 3.0141 (13)
Ag7—O7 2.273 (10) Ag36—Ag2vi 3.0847 (15)
Ag7—O5ii 2.313 (10) Ag36—Ag19xi 3.3882 (16)
Ag7—I6 2.7140 (14) Ag37—O26 2.304 (9)
Ag7—I3ii 3.1669 (15) Ag37—O19iii 2.383 (10)
Ag7—Ag37ii 3.0480 (16) Ag37—I3 2.7154 (13)
Ag7—Ag8 3.0725 (15) Ag37—I6iii 2.9276 (14)
Ag8—O9 2.393 (11) Ag37—Ag7iii 3.0479 (16)
Ag8—O16 2.408 (10) Ag37—Ag38 3.1027 (15)
Ag8—O14 2.698 (11) Ag38—O27 2.364 (10)
Ag8—I6 2.8571 (14) Ag38—O32 2.377 (10)
Ag8—I7 3.1721 (13) Ag38—O34iv 2.660 (11)
Ag8—I9iv 3.2491 (14) Ag38—I3 2.8340 (14)
Ag8—Ag9iv 3.1717 (15) Ag38—I1ii 3.2245 (14)
Ag8—Ag13 3.2882 (15) Ag38—I5 3.3447 (14)
Ag9—O17 2.308 (10) Ag38—Ag3iv 3.2525 (15)
Ag9—O3viii 2.340 (9) Ag38—Ag39 3.2837 (15)
Ag9—O9vi 2.732 (11) Ag39—O31 2.312 (9)
Ag9—I7vi 2.7431 (14) Ag39—O24ii 2.329 (10)
Ag9—Ag4viii 3.0588 (14) Ag39—O27 2.596 (10)
Ag9—Ag8vi 3.1717 (15) Ag39—I5 2.8069 (14)
Ag9—Ag27vi 3.3996 (16) Ag40—O29 2.346 (9)
Ag10—O10 2.274 (10) Ag40—O31iii 2.376 (10)
Ag10—O17vii 2.391 (10) Ag40—I2 2.7526 (13)
Ag10—I10 2.7225 (13) Ag40—I2ix 2.9693 (13)
Ag10—I4ix 3.0668 (14) Ag40—Ag40ix 2.968 (2)
Ag10—Ag30ix 3.0022 (16) Ag40—O30 2.932 (10)
Ag10—Ag11x 3.1906 (15) C1—O1vi 1.251 (15)
Ag10—Ag32vi 3.3724 (16) C1—O2 1.282 (15)
Ag11—O12 2.377 (9) C1—O3 1.328 (15)
Ag11—O22 2.384 (9) C2—O4 1.264 (17)
Ag11—O20i 2.684 (10) C2—O6 1.305 (17)
Ag11—I10i 2.8234 (13) C2—O5 1.310 (17)
Ag11—I8 3.2455 (14) C3—O9 1.272 (16)
Ag11—I13 3.2872 (14) C3—O7 1.293 (16)
Ag11—Ag12 3.1734 (15) C3—O8 1.302 (16)
Ag11—Ag10i 3.1905 (15) C4—O12 1.279 (16)
Ag11—Ag15 3.3624 (15) C4—O10i 1.283 (16)
Ag12—O23 2.252 (9) C4—O11 1.307 (16)
Ag12—O13 2.428 (12) C5—O15 1.267 (16)
Ag12—O12 2.761 (10) C5—O14 1.295 (16)
Ag12—I8 2.7745 (14) C5—O13ii 1.312 (15)
Ag13—O15 2.294 (12) C6—O17iv 1.281 (17)
Ag13—O25 2.363 (9) C6—O16 1.283 (17)
Ag13—I9iv 2.7529 (13) C6—O18iv 1.310 (17)
Ag13—O16 2.817 (10) C7—O20iv 1.267 (16)
Ag13—I11ii 3.1325 (14) C7—O21 1.297 (15)
Ag13—Ag33 3.0620 (15) C7—O19 1.311 (16)
Ag13—Ag14iv 3.2462 (15) C8—O23 1.256 (16)
Ag14—O18 2.313 (10) C8—O22 1.291 (17)
Ag14—O19xi 2.484 (10) C8—O24 1.319 (17)
Ag14—O26vi 2.589 (10) C9—O27 1.272 (16)
Ag14—I14 2.8131 (13) C9—O26 1.282 (16)
Ag14—I10viii 3.0760 (13) C9—O25 1.306 (16)
Ag14—Ag19 3.1494 (15) C10—O30 1.256 (15)
Ag14—Ag13vi 3.2463 (15) C10—O28ix 1.305 (16)
Ag15—O21xii 2.313 (9) C10—O29 1.312 (15)
Ag15—O28ix 2.400 (9) C11—O33ii 1.284 (16)
Ag15—I13 2.7543 (13) C11—O32 1.284 (16)
Ag15—O22 2.808 (9) C11—O31 1.297 (16)
Ag15—I12ii 3.1320 (14) C12—O36 1.279 (18)
Ag15—Ag35ix 3.0836 (15) C12—O34 1.280 (17)
Ag15—Ag16 3.2907 (15) C12—O35 1.310 (18)
Ag16—O29 2.397 (9) O1—C1iv 1.251 (15)
Ag16—O24 2.415 (10) O1—Ag22iv 2.294 (9)
Ag16—O31iii 2.625 (10) O1—Ag27ii 2.396 (9)
Ag16—I15iii 2.8193 (13) O2—Ag5x 2.555 (9)
Ag16—I16 3.1336 (13) O3—Ag9vii 2.340 (9)
Ag16—Ag22 3.0444 (14) O3—Ag26vi 2.342 (9)
Ag17—O25 2.336 (10) O3—Ag5x 2.495 (10)
Ag17—O23ii 2.407 (9) O4—Ag21i 2.467 (11)
Ag17—I15 2.7388 (13) O5—Ag7iii 2.312 (10)
Ag17—I11ii 2.9924 (13) O5—Ag24iii 2.429 (11)
Ag17—Ag27ii 2.9507 (15) O6—Ag25i 2.338 (10)
Ag18—O34iv 2.409 (10) O6—Ag29iii 2.362 (11)
Ag18—O32 2.530 (9) O8—Ag4v 2.430 (10)
Ag18—O27 2.545 (10) O10—C4x 1.283 (16)
Ag18—I15 2.8498 (13) O10—Ag5x 2.373 (9)
Ag18—I16iv 3.0485 (13) O10—Ag26vi 2.503 (10)
Ag18—I14iv 3.0730 (13) O11—Ag25i 2.314 (9)
Ag18—Ag23iv 3.1508 (14) O12—Ag31i 2.536 (9)
Ag19—O34 2.300 (11) O13—C5iii 1.312 (15)
Ag19—O19xi 2.370 (11) O17—C6vi 1.281 (17)
Ag19—O21xi 2.915 (10) O17—Ag10viii 2.391 (10)
Ag19—I12x 2.9205 (15) O18—C6vi 1.310 (17)
Ag19—O35 2.944 (13) O18—Ag32xi 2.277 (10)
Ag19—I14 3.0637 (15) O18—Ag33vi 2.532 (10)
Ag19—Ag36xi 3.3883 (16) O19—Ag19xi 2.370 (11)
Ag20—O28ii 2.282 (10) O19—Ag37ii 2.383 (10)
Ag20—O35iii 2.376 (10) O19—Ag14xi 2.484 (10)
Ag20—I12 2.7264 (13) O20—C7vi 1.267 (16)
Ag20—I12xiii 2.9991 (14) O20—Ag32vi 2.284 (10)
Ag20—Ag20xiii 3.021 (2) O21—Ag15xiv 2.313 (9)
Ag20—Ag21i 3.0523 (15) O22—Ag35ix 2.535 (10)
Ag21—O30 2.440 (10) O22—Ag31i 2.538 (10)
Ag21—O2 2.462 (9) O23—Ag17iii 2.407 (9)
Ag21—O4x 2.467 (11) O23—Ag34iii 2.577 (10)
Ag21—I12x 2.9562 (13) O24—Ag39iii 2.329 (10)
Ag21—I16 3.1225 (13) O24—Ag35ix 2.536 (10)
Ag21—I14 3.1435 (13) O26—Ag14iv 2.589 (10)
Ag21—Ag20x 3.0524 (15) O28—C10ix 1.305 (16)
Ag21—Ag25 3.0592 (14) O28—Ag20iii 2.282 (10)
Ag21—Ag22 3.1148 (14) O28—Ag15ix 2.400 (9)
Ag22—O1vi 2.294 (9) O29—Ag35ix 2.330 (9)
Ag22—O33 2.311 (10) O30—Ag1x 2.462 (10)
Ag22—O30 2.661 (10) O31—Ag40ii 2.376 (10)
Ag22—I16 2.7609 (14) O32—Ag23iv 2.520 (10)
Ag22—Ag40 3.3647 (16) O33—C11iii 1.284 (16)
Ag23—O8 2.321 (10) O33—Ag23v 2.556 (10)
Ag23—O32vi 2.520 (10) O34—Ag18vi 2.410 (10)
Ag23—O33v 2.556 (10) O35—Ag20ii 2.376 (10)
Ag23—I16 2.8004 (13) O35—Ag36xi 2.417 (12)
Ag23—O36 2.835 (12) O35—Ag2ii 2.427 (13)
Ag23—I15iii 3.1727 (14) I1—Ag3v 2.7620 (13)
Ag23—Ag18vi 3.1507 (14) I1—Ag2iii 2.8470 (14)
Ag23—Ag24 3.2879 (15) I1—Ag36v 2.9272 (14)
Ag24—O36 2.299 (11) I1—Ag1iii 3.0867 (13)
Ag24—O5ii 2.429 (11) I1—Ag38iii 3.2246 (14)
Ag24—O7 2.617 (10) I2—Ag1x 2.8525 (13)
Ag24—I13 2.8377 (14) I2—Ag40ix 2.9692 (13)
Ag24—Ag29 3.0848 (15) I3—Ag36iii 3.0141 (13)
Ag24—I12ii 3.2144 (14) I3—Ag3iii 3.1509 (14)
Ag25—O11x 2.314 (9) I3—Ag7iii 3.1669 (15)
Ag25—O6x 2.338 (10) I4—Ag34iii 2.7982 (13)
Ag25—O2 2.569 (9) I4—Ag31i 2.8487 (13)
Ag25—I14 2.7879 (13) I4—Ag10ix 3.0670 (14)
Ag25—I10viii 3.2942 (13) I4—Ag5iii 3.0769 (14)
Ag25—Ag5x 3.1070 (15) I6—Ag37ii 2.9276 (14)
Ag26—O3iv 2.342 (9) I6—Ag6ii 3.0645 (14)
Ag26—O10iv 2.503 (10) I6—Ag33ii 3.2478 (14)
Ag26—O17xi 2.683 (11) I7—Ag9iv 2.7430 (14)
Ag26—I11ii 2.9055 (13) I7—Ag35v 2.8034 (13)
Ag26—I9iv 2.9222 (13) I7—Ag31iv 3.0042 (13)
Ag26—Ag32 2.9901 (15) I7—Ag4v 3.0367 (13)
Ag27—O8 2.330 (10) I9—Ag13vi 2.7528 (13)
Ag27—O1iii 2.396 (9) I9—Ag32vi 2.8294 (14)
Ag27—I11 2.7347 (13) I9—Ag26vi 2.9223 (13)
Ag27—O9 2.941 (11) I9—Ag8vi 3.2491 (14)
Ag27—I15iii 2.9739 (13) I10—Ag11x 2.8234 (13)
Ag27—Ag17iii 2.9508 (15) I10—Ag30ix 2.9062 (14)
Ag27—Ag9iv 3.3997 (16) I10—Ag29x 3.0691 (15)
Ag28—O14 2.383 (11) I10—Ag14vii 3.0759 (13)
Ag28—O9 2.488 (11) I11—Ag26iii 2.9055 (13)
Ag28—O16 2.584 (10) I11—Ag17iii 2.9925 (13)
Ag28—I11 2.8574 (13) I11—Ag13iii 3.1326 (14)
Ag28—I8 2.9725 (13) I12—Ag19i 2.9205 (15)
Ag28—I13 3.1476 (13) I12—Ag21i 2.9562 (13)
Ag28—Ag33 3.1352 (15) I12—Ag20xiii 2.9990 (14)
Ag29—O14 2.292 (11) I12—Ag15iii 3.1320 (14)
Ag29—O6ii 2.362 (11) I12—Ag24iii 3.2144 (14)
Ag29—I13 2.8812 (14) I14—Ag18vi 3.0729 (13)
Ag29—O5ii 2.989 (11) I15—Ag16ii 2.8192 (13)
Ag29—I10i 3.0690 (15) I15—Ag27ii 2.9741 (13)
Ag29—O13ii 3.001 (12) I15—Ag23ii 3.1726 (14)
Ag30—O13 2.352 (11) I16—Ag18vi 3.0486 (13)
Ag30—O11 2.366 (10)
O4—Ag1—O30i 74.6 (3) O20—Ag31—I7vi 81.7 (2)
O4—Ag1—I2i 157.3 (3) O12x—Ag31—I7vi 158.8 (2)
O30i—Ag1—I2i 99.6 (2) O22x—Ag31—I7vi 106.0 (2)
O4—Ag1—I5 85.8 (2) I4x—Ag31—I7vi 99.83 (4)
O30i—Ag1—I5 160.3 (2) O20—Ag31—Ag35viii 82.8 (2)
I2i—Ag1—I5 99.20 (4) O12x—Ag31—Ag35viii 127.2 (2)
O4—Ag1—I1ii 99.3 (2) O22x—Ag31—Ag35viii 52.4 (2)
O30i—Ag1—I1ii 80.8 (2) I4x—Ag31—Ag35viii 86.17 (4)
I2i—Ag1—I1ii 101.31 (4) I7vi—Ag31—Ag35viii 54.75 (3)
I5—Ag1—I1ii 101.33 (4) O20—Ag31—I9 92.4 (2)
O4—Ag1—Ag5 83.8 (2) O12x—Ag31—I9 76.0 (2)
O30i—Ag1—Ag5 125.1 (2) O22x—Ag31—I9 151.3 (2)
I2i—Ag1—Ag5 81.94 (4) I4x—Ag31—I9 101.74 (4)
I5—Ag1—Ag5 52.32 (3) I7vi—Ag31—I9 99.32 (4)
I1ii—Ag1—Ag5 153.39 (4) Ag35viii—Ag31—I9 154.01 (4)
O35iii—Ag2—O5 104.0 (4) O18xi—Ag32—O20iv 110.0 (3)
O35iii—Ag2—O4 103.6 (3) O18xi—Ag32—I9iv 144.7 (3)
O5—Ag2—O4 52.9 (3) O20iv—Ag32—I9iv 103.2 (2)
O35iii—Ag2—I1ii 108.6 (3) O18xi—Ag32—Ag26 88.4 (2)
O5—Ag2—I1ii 143.3 (2) O20iv—Ag32—Ag26 130.8 (3)
O4—Ag2—I1ii 102.4 (2) I9iv—Ag32—Ag26 60.21 (3)
O35iii—Ag2—I3 119.6 (3) O18xi—Ag32—I6 82.7 (2)
O5—Ag2—I3 80.9 (2) O20iv—Ag32—I6 113.9 (2)
O4—Ag2—I3 123.4 (2) I9iv—Ag32—I6 94.86 (4)
I1ii—Ag2—I3 96.94 (4) Ag26—Ag32—I6 113.49 (4)
O35iii—Ag2—Ag36iv 50.3 (3) O18xi—Ag32—Ag10iv 66.9 (2)
O5—Ag2—Ag36iv 153.5 (3) O20iv—Ag32—Ag10iv 77.7 (2)
O4—Ag2—Ag36iv 119.9 (2) I9iv—Ag32—Ag10iv 110.28 (4)
I1ii—Ag2—Ag36iv 58.98 (3) Ag26—Ag32—Ag10iv 68.25 (3)
I3—Ag2—Ag36iv 115.74 (4) I6—Ag32—Ag10iv 149.57 (4)
O36—Ag3—O7 78.9 (4) O26—Ag33—O16 116.2 (3)
O36—Ag3—I1v 142.7 (3) O26—Ag33—O18iv 78.6 (3)
O7—Ag3—I1v 138.2 (2) O16—Ag33—O18iv 51.8 (3)
O36—Ag3—Ag23 61.2 (3) O26—Ag33—I8 130.4 (2)
O7—Ag3—Ag23 74.3 (2) O16—Ag33—I8 112.2 (2)
I1v—Ag3—Ag23 122.58 (4) O18iv—Ag33—I8 144.6 (2)
O36—Ag3—I3ii 92.6 (3) O26—Ag33—Ag13 74.8 (2)
O7—Ag3—I3ii 83.5 (2) O16—Ag33—Ag13 59.7 (2)
I1v—Ag3—I3ii 89.18 (4) O18iv—Ag33—Ag13 78.4 (2)
Ag23—Ag3—I3ii 148.13 (4) I8—Ag33—Ag13 124.03 (5)
O36—Ag3—Ag38vi 79.2 (3) O26—Ag33—Ag28 169.0 (2)
O7—Ag3—Ag38vi 157.2 (2) O16—Ag33—Ag28 53.0 (2)
I1v—Ag3—Ag38vi 64.24 (3) O18iv—Ag33—Ag28 93.6 (2)
Ag23—Ag3—Ag38vi 89.60 (4) I8—Ag33—Ag28 59.80 (3)
I3ii—Ag3—Ag38vi 103.73 (4) Ag13—Ag33—Ag28 96.18 (4)
O36—Ag3—Ag4v 131.1 (3) O26—Ag33—I6iii 81.0 (2)
O7—Ag3—Ag4v 78.0 (2) O16—Ag33—I6iii 115.6 (2)
I1v—Ag3—Ag4v 73.65 (4) O18iv—Ag33—I6iii 76.1 (2)
Ag23—Ag3—Ag4v 71.24 (3) I8—Ag33—I6iii 87.98 (4)
I3ii—Ag3—Ag4v 126.53 (4) Ag13—Ag33—I6iii 147.73 (4)
Ag38vi—Ag3—Ag4v 112.42 (4) Ag28—Ag33—I6iii 104.82 (4)
O33—Ag4—O8v 76.7 (3) O26—Ag33—Ag34 78.9 (2)
O33—Ag4—I2 108.5 (2) O16—Ag33—Ag34 120.0 (2)
O8v—Ag4—I2 163.8 (2) O18iv—Ag33—Ag34 146.5 (2)
O33—Ag4—I7v 153.1 (2) I8—Ag33—Ag34 67.94 (3)
O8v—Ag4—I7v 91.4 (2) Ag13—Ag33—Ag34 71.85 (4)
I2—Ag4—I7v 89.55 (4) Ag28—Ag33—Ag34 104.45 (4)
O33—Ag4—Ag9vii 142.6 (2) I6iii—Ag33—Ag34 124.16 (4)
O8v—Ag4—Ag9vii 77.8 (2) O15—Ag34—O25 72.6 (4)
I2—Ag4—Ag9vii 89.91 (4) O15—Ag34—O23ii 93.3 (4)
I7v—Ag4—Ag9vii 53.49 (3) O25—Ag34—O23ii 79.6 (3)
O33—Ag4—Ag3v 77.3 (2) O15—Ag34—I4ii 125.4 (3)
O8v—Ag4—Ag3v 64.8 (2) O25—Ag34—I4ii 160.2 (2)
I2—Ag4—Ag3v 130.88 (4) O23ii—Ag34—I4ii 90.5 (2)
I7v—Ag4—Ag3v 75.85 (3) O15—Ag34—Ag39 146.7 (3)
Ag9vii—Ag4—Ag3v 115.22 (4) O25—Ag34—Ag39 74.4 (2)
O10i—Ag5—O3i 79.0 (3) O23ii—Ag34—Ag39 76.1 (2)
O10i—Ag5—O2i 112.3 (3) I4ii—Ag34—Ag39 86.64 (4)
O3i—Ag5—O2i 52.0 (3) O15—Ag34—Ag33 56.4 (3)
O10i—Ag5—I5 134.3 (2) O25—Ag34—Ag33 62.3 (2)
O3i—Ag5—I5 146.0 (2) O23ii—Ag34—Ag33 136.0 (2)
O2i—Ag5—I5 106.9 (2) I4ii—Ag34—Ag33 132.24 (4)
O10i—Ag5—I4ii 84.8 (2) Ag39—Ag34—Ag33 110.85 (4)
O3i—Ag5—I4ii 83.9 (2) O29ix—Ag35—O22ix 108.9 (3)
O2i—Ag5—I4ii 124.8 (2) O29ix—Ag35—O24ix 75.8 (3)
I5—Ag5—I4ii 91.75 (4) O22ix—Ag35—O24ix 51.8 (3)
O10i—Ag5—Ag25i 76.6 (2) O29ix—Ag35—I7v 136.3 (2)
O3i—Ag5—Ag25i 78.4 (2) O22ix—Ag35—I7v 112.2 (2)
O2i—Ag5—Ag25i 52.9 (2) O24ix—Ag35—I7v 143.6 (2)
I5—Ag5—Ag25i 111.60 (4) O29ix—Ag35—Ag15ix 68.4 (2)
I4ii—Ag5—Ag25i 156.42 (4) O22ix—Ag35—Ag15ix 59.0 (2)
O10i—Ag5—Ag6 82.1 (2) O24ix—Ag35—Ag15ix 79.8 (2)
O3i—Ag5—Ag6 147.4 (2) I7v—Ag35—Ag15ix 123.08 (4)
O2i—Ag5—Ag6 113.8 (2) O29ix—Ag35—Ag31vii 161.4 (2)
I5—Ag5—Ag6 60.75 (3) O22ix—Ag35—Ag31vii 52.5 (2)
I4ii—Ag5—Ag6 120.56 (4) O24ix—Ag35—Ag31vii 90.5 (2)
Ag25i—Ag5—Ag6 71.49 (3) I7v—Ag35—Ag31vii 61.06 (3)
O10i—Ag5—Ag1 162.4 (2) Ag15ix—Ag35—Ag31vii 97.01 (4)
O3i—Ag5—Ag1 92.1 (2) O29ix—Ag35—I2 81.8 (2)
O2i—Ag5—Ag1 51.3 (2) O22ix—Ag35—I2 123.4 (2)
I5—Ag5—Ag1 57.66 (3) O24ix—Ag35—I2 80.4 (2)
I4ii—Ag5—Ag1 109.61 (4) I7v—Ag35—I2 87.50 (4)
Ag25i—Ag5—Ag1 86.73 (4) Ag15ix—Ag35—I2 147.46 (4)
Ag6—Ag5—Ag1 98.25 (4) Ag31vii—Ag35—I2 108.73 (4)
O13—Ag6—O6 93.2 (4) O21—Ag36—O35xi 108.3 (4)
O13—Ag6—O11 71.7 (3) O21—Ag36—I1v 134.1 (3)
O6—Ag6—O11 72.0 (3) O35xi—Ag36—I1v 106.4 (3)
O13—Ag6—I6iii 84.1 (3) O21—Ag36—I3ii 121.0 (2)
O6—Ag6—I6iii 119.9 (2) O35xi—Ag36—I3ii 88.3 (3)
O11—Ag6—I6iii 154.0 (2) I1v—Ag36—I3ii 88.88 (4)
O13—Ag6—I5 174.2 (3) O21—Ag36—Ag2vi 151.9 (2)
O6—Ag6—I5 87.1 (2) O35xi—Ag36—Ag2vi 50.6 (3)
O11—Ag6—I5 113.8 (2) I1v—Ag36—Ag2vi 56.46 (3)
I6iii—Ag6—I5 90.70 (4) I3ii—Ag36—Ag2vi 80.62 (4)
O13—Ag6—I8 99.3 (3) O26—Ag37—O19iii 82.2 (3)
O6—Ag6—I8 153.1 (3) O26—Ag37—I3 142.3 (2)
O11—Ag6—I8 89.4 (2) O19iii—Ag37—I3 112.9 (2)
I6iii—Ag6—I8 85.16 (3) O26—Ag37—I6iii 89.6 (2)
I5—Ag6—I8 82.76 (3) O19iii—Ag37—I6iii 97.7 (3)
O13—Ag6—Ag12 48.0 (3) I3—Ag37—I6iii 120.18 (5)
O6—Ag6—Ag12 135.3 (2) O26—Ag37—Ag7iii 134.5 (2)
O11—Ag6—Ag12 74.4 (2) O19iii—Ag37—Ag7iii 124.4 (3)
I6iii—Ag6—Ag12 82.49 (4) I3—Ag37—Ag7iii 66.37 (4)
I5—Ag6—Ag12 133.87 (4) I6iii—Ag37—Ag7iii 53.98 (3)
I8—Ag6—Ag12 51.29 (3) O26—Ag37—Ag38 84.6 (2)
O13—Ag6—Ag5 133.8 (3) O19iii—Ag37—Ag38 121.6 (3)
O6—Ag6—Ag5 76.9 (3) I3—Ag37—Ag38 57.84 (3)
O11—Ag6—Ag5 62.4 (2) I6iii—Ag37—Ag38 138.84 (5)
I6iii—Ag6—Ag5 139.87 (4) Ag7iii—Ag37—Ag38 104.70 (4)
I5—Ag6—Ag5 51.81 (3) O27—Ag38—O32 79.0 (3)
I8—Ag6—Ag5 77.20 (3) O27—Ag38—I3 126.8 (2)
Ag12—Ag6—Ag5 111.78 (4) O32—Ag38—I3 141.8 (2)
O7—Ag7—O5ii 81.5 (4) O27—Ag38—Ag37 73.7 (2)
O7—Ag7—I6 141.4 (3) O32—Ag38—Ag37 146.3 (2)
O5ii—Ag7—I6 133.6 (3) I3—Ag38—Ag37 54.21 (3)
O7—Ag7—Ag37ii 128.2 (3) O27—Ag38—I1ii 136.8 (2)
O5ii—Ag7—Ag37ii 112.7 (3) O32—Ag38—I1ii 75.7 (2)
I6—Ag7—Ag37ii 60.75 (3) I3—Ag38—I1ii 93.83 (4)
O7—Ag7—Ag8 83.1 (3) Ag37—Ag38—I1ii 138.02 (4)
O5ii—Ag7—Ag8 145.5 (3) O27—Ag38—Ag3iv 132.8 (2)
I6—Ag7—Ag8 58.78 (3) O32—Ag38—Ag3iv 56.6 (2)
Ag37ii—Ag7—Ag8 101.07 (4) I3—Ag38—Ag3iv 88.16 (4)
O7—Ag7—I3ii 85.2 (3) Ag37—Ag38—Ag3iv 137.71 (5)
O5ii—Ag7—I3ii 80.6 (3) I1ii—Ag38—Ag3iv 50.48 (3)
I6—Ag7—I3ii 112.37 (5) O27—Ag38—Ag39 51.6 (2)
Ag37ii—Ag7—I3ii 51.77 (3) O32—Ag38—Ag39 70.3 (2)
Ag8—Ag7—I3ii 128.50 (5) I3—Ag38—Ag39 146.88 (5)
O7—Ag7—Ag29 80.2 (2) Ag37—Ag38—Ag39 105.78 (4)
O5ii—Ag7—Ag29 60.2 (3) I1ii—Ag38—Ag39 86.75 (4)
I6—Ag7—Ag29 102.20 (4) Ag3iv—Ag38—Ag39 116.48 (4)
Ag37ii—Ag7—Ag29 151.00 (5) O31—Ag39—O24ii 82.0 (3)
Ag8—Ag7—Ag29 86.82 (4) O31—Ag39—O27 99.3 (3)
I3ii—Ag7—Ag29 139.69 (4) O24ii—Ag39—O27 122.3 (3)
O9—Ag8—O16 79.4 (3) O31—Ag39—I5 132.5 (2)
O9—Ag8—I6 127.2 (3) O24ii—Ag39—I5 138.8 (3)
O16—Ag8—I6 138.3 (2) O27—Ag39—I5 79.4 (2)
O9—Ag8—Ag7 73.9 (3) O31—Ag39—Ag34 157.0 (2)
O16—Ag8—Ag7 143.8 (2) O24ii—Ag39—Ag34 78.1 (2)
I6—Ag8—Ag7 54.33 (3) O27—Ag39—Ag34 81.9 (2)
O9—Ag8—Ag9iv 56.8 (3) I5—Ag39—Ag34 70.52 (3)
O16—Ag8—Ag9iv 68.5 (2) O31—Ag39—Ag38 79.3 (2)
I6—Ag8—Ag9iv 150.99 (5) O24ii—Ag39—Ag38 154.6 (3)
Ag7—Ag8—Ag9iv 113.71 (4) O27—Ag39—Ag38 45.6 (2)
O9—Ag8—I7 75.0 (3) I5—Ag39—Ag38 66.08 (3)
O16—Ag8—I7 119.2 (2) Ag34—Ag39—Ag38 115.42 (4)
I6—Ag8—I7 100.13 (4) O29—Ag40—O31iii 85.5 (3)
Ag7—Ag8—I7 76.91 (4) O29—Ag40—I2 137.4 (2)
Ag9iv—Ag8—I7 51.24 (3) O31iii—Ag40—I2 128.2 (2)
O9—Ag8—I9iv 140.8 (3) O29—Ag40—Ag40ix 128.2 (2)
O16—Ag8—I9iv 74.2 (2) O31iii—Ag40—Ag40ix 119.5 (2)
I6—Ag8—I9iv 91.25 (4) I2—Ag40—Ag40ix 62.40 (4)
Ag7—Ag8—I9iv 140.53 (5) O29—Ag40—I2ix 86.3 (2)
Ag9iv—Ag8—I9iv 86.51 (4) O31iii—Ag40—I2ix 85.3 (2)
I7—Ag8—I9iv 93.21 (4) I2—Ag40—I2ix 117.65 (4)
O9—Ag8—Ag13 131.2 (3) Ag40ix—Ag40—I2ix 55.24 (4)
O16—Ag8—Ag13 56.8 (2) O29—Ag40—Ag22 71.3 (2)
I6—Ag8—Ag13 83.73 (4) O31iii—Ag40—Ag22 72.7 (2)
Ag7—Ag8—Ag13 130.23 (5) I2—Ag40—Ag22 92.77 (4)
Ag9iv—Ag8—Ag13 115.64 (4) Ag40ix—Ag40—Ag22 155.05 (6)
I7—Ag8—Ag13 143.00 (4) I2ix—Ag40—Ag22 149.47 (4)
I9iv—Ag8—Ag13 49.81 (3) O1vi—C1—O2 122.8 (11)
O17—Ag9—O3viii 80.9 (3) O1vi—C1—O3 121.0 (11)
O17—Ag9—I7vi 136.2 (3) O2—C1—O3 116.1 (11)
O3viii—Ag9—I7vi 136.3 (2) O4—C2—O6 121.2 (13)
O17—Ag9—Ag4viii 160.9 (3) O4—C2—O5 119.7 (12)
O3viii—Ag9—Ag4viii 81.7 (2) O6—C2—O5 119.1 (12)
I7vi—Ag9—Ag4viii 62.84 (3) O9—C3—O7 122.6 (12)
O17—Ag9—Ag8vi 84.5 (3) O9—C3—O8 118.7 (12)
O3viii—Ag9—Ag8vi 158.1 (2) O7—C3—O8 118.7 (12)
I7vi—Ag9—Ag8vi 64.39 (3) O12—C4—O10i 122.9 (12)
Ag4viii—Ag9—Ag8vi 109.69 (4) O12—C4—O11 118.7 (12)
O10—Ag10—O17vii 89.4 (4) O10i—C4—O11 118.4 (11)
O10—Ag10—I10 137.4 (2) O15—C5—O14 121.2 (11)
O17vii—Ag10—I10 127.2 (2) O15—C5—O13ii 120.8 (11)
O10—Ag10—Ag30ix 131.1 (2) O14—C5—O13ii 117.7 (11)
O17vii—Ag10—Ag30ix 111.5 (3) O17iv—C6—O16 123.4 (13)
I10—Ag10—Ag30ix 60.78 (4) O17iv—C6—O18iv 119.7 (13)
O10—Ag10—I4ix 86.7 (2) O16—C6—O18iv 116.7 (13)
O17vii—Ag10—I4ix 84.7 (2) O20iv—C7—O21 122.0 (12)
I10—Ag10—I4ix 114.46 (4) O20iv—C7—O19 121.1 (12)
Ag30ix—Ag10—I4ix 54.06 (3) O21—C7—O19 116.9 (12)
O10—Ag10—Ag11x 81.1 (2) O23—C8—O22 122.7 (12)
O17vii—Ag10—Ag11x 147.9 (3) O23—C8—O24 121.1 (12)
I10—Ag10—Ag11x 56.37 (3) O22—C8—O24 116.2 (12)
Ag30ix—Ag10—Ag11x 97.51 (4) O27—C9—O26 123.0 (12)
I4ix—Ag10—Ag11x 124.80 (4) O27—C9—O25 119.9 (12)
O10—Ag10—Ag32vi 75.4 (2) O26—C9—O25 117.0 (11)
O17vii—Ag10—Ag32vi 67.4 (3) O30—C10—O28ix 123.3 (12)
I10—Ag10—Ag32vi 97.49 (4) O30—C10—O29 119.4 (12)
Ag30ix—Ag10—Ag32vi 153.06 (5) O28ix—C10—O29 117.2 (11)
I4ix—Ag10—Ag32vi 146.54 (4) O33ii—C11—O32 120.2 (12)
Ag11x—Ag10—Ag32vi 80.60 (4) O33ii—C11—O31 118.9 (12)
O12—Ag11—O22 81.5 (3) O32—C11—O31 120.9 (12)
O12—Ag11—I10i 126.1 (3) O36—C12—O34 121.8 (13)
O22—Ag11—I10i 138.0 (2) O36—C12—O35 118.8 (13)
O12—Ag11—Ag12 57.5 (3) O34—C12—O35 119.4 (13)
O22—Ag11—Ag12 69.8 (2) C1iv—O1—Ag22iv 121.6 (8)
I10i—Ag11—Ag12 149.72 (5) C1iv—O1—Ag27ii 113.6 (8)
O12—Ag11—Ag10i 73.9 (2) Ag22iv—O1—Ag27ii 118.9 (4)
O22—Ag11—Ag10i 146.6 (2) C1—O2—Ag21 126.6 (8)
I10i—Ag11—Ag10i 53.41 (3) C1—O2—Ag5x 93.9 (7)
Ag12—Ag11—Ag10i 112.89 (4) Ag21—O2—Ag5x 136.9 (4)
O12—Ag11—I8 75.9 (2) C1—O2—Ag25 115.2 (8)
O22—Ag11—I8 120.1 (2) Ag21—O2—Ag25 74.9 (3)
I10i—Ag11—I8 98.81 (4) Ag5x—O2—Ag25 74.6 (2)
Ag12—Ag11—I8 51.20 (3) C1—O3—Ag9vii 121.8 (8)
Ag10i—Ag11—I8 75.62 (3) C1—O3—Ag26vi 117.3 (8)
O12—Ag11—Ag15 132.2 (2) Ag9vii—O3—Ag26vi 102.1 (4)
O22—Ag11—Ag15 55.4 (2) C1—O3—Ag5x 95.5 (7)
I10i—Ag11—Ag15 84.82 (4) Ag9vii—O3—Ag5x 120.9 (4)
Ag12—Ag11—Ag15 115.09 (4) Ag26vi—O3—Ag5x 97.8 (3)
Ag10i—Ag11—Ag15 131.93 (4) C2—O4—Ag1 130.4 (9)
I8—Ag11—Ag15 140.93 (4) C2—O4—Ag21i 126.0 (9)
O23—Ag12—O13 114.7 (4) Ag1—O4—Ag21i 92.3 (3)
O23—Ag12—I8 134.8 (3) C2—O4—Ag2 90.9 (8)
O13—Ag12—I8 110.6 (3) Ag1—O4—Ag2 85.9 (3)
O23—Ag12—Ag11 82.6 (2) Ag21i—O4—Ag2 128.5 (4)
O13—Ag12—Ag11 135.3 (2) C2—O5—Ag7iii 126.7 (9)
I8—Ag12—Ag11 65.74 (4) C2—O5—Ag24iii 111.7 (9)
O23—Ag12—Ag6 162.5 (3) Ag7iii—O5—Ag24iii 102.4 (4)
O13—Ag12—Ag6 47.8 (3) C2—O5—Ag2 95.7 (8)
I8—Ag12—Ag6 62.72 (3) Ag7iii—O5—Ag2 117.3 (4)
Ag11—Ag12—Ag6 109.78 (4) Ag24iii—O5—Ag2 100.5 (4)
O15—Ag13—O25 74.4 (4) C2—O6—Ag25i 118.7 (9)
O15—Ag13—I9iv 141.1 (3) C2—O6—Ag29iii 107.0 (9)
O25—Ag13—I9iv 144.6 (2) Ag25i—O6—Ag29iii 119.1 (4)
O15—Ag13—Ag33 61.7 (3) C2—O6—Ag6 114.9 (8)
O25—Ag13—Ag33 68.0 (3) Ag25i—O6—Ag6 101.2 (4)
I9iv—Ag13—Ag33 121.59 (5) Ag29iii—O6—Ag6 93.0 (4)
O15—Ag13—I11ii 95.3 (3) C3—O7—Ag7 123.3 (8)
O25—Ag13—I11ii 84.8 (2) C3—O7—Ag3 112.6 (8)
I9iv—Ag13—I11ii 90.54 (4) Ag7—O7—Ag3 114.4 (4)
Ag33—Ag13—I11ii 147.81 (4) C3—O8—Ag23 122.1 (8)
O15—Ag13—Ag14iv 131.5 (3) C3—O8—Ag27 110.0 (8)
O25—Ag13—Ag14iv 79.8 (2) Ag23—O8—Ag27 113.0 (4)
I9iv—Ag13—Ag14iv 73.29 (4) C3—O8—Ag4v 106.9 (8)
Ag33—Ag13—Ag14iv 70.68 (4) Ag23—O8—Ag4v 102.9 (4)
I11ii—Ag13—Ag14iv 122.63 (4) Ag27—O8—Ag4v 98.8 (3)
O15—Ag13—Ag8 77.3 (3) C3—O9—Ag8 126.6 (9)
O25—Ag13—Ag8 149.8 (3) C3—O9—Ag28 133.2 (9)
I9iv—Ag13—Ag8 64.36 (3) Ag8—O9—Ag28 90.2 (3)
Ag33—Ag13—Ag8 89.43 (4) C4x—O10—Ag10 126.1 (8)
I11ii—Ag13—Ag8 108.24 (4) C4x—O10—Ag5x 111.3 (8)
Ag14iv—Ag13—Ag8 112.45 (4) Ag10—O10—Ag5x 111.1 (4)
O18—Ag14—O19xi 87.5 (3) C4x—O10—Ag26vi 109.1 (8)
O18—Ag14—O26vi 78.6 (3) Ag10—O10—Ag26vi 97.1 (3)
O19xi—Ag14—O26vi 74.8 (3) Ag5x—O10—Ag26vi 96.8 (3)
O18—Ag14—I14 157.5 (3) C4—O11—Ag25i 126.0 (8)
O19xi—Ag14—I14 109.0 (2) C4—O11—Ag30 105.8 (8)
O26vi—Ag14—I14 90.8 (2) Ag25i—O11—Ag30 112.6 (4)
O18—Ag14—I10viii 104.7 (3) C4—O11—Ag6 107.7 (8)
O19xi—Ag14—I10viii 85.0 (2) Ag25i—O11—Ag6 99.2 (3)
O26vi—Ag14—I10viii 159.4 (2) Ag30—O11—Ag6 103.0 (3)
I14—Ag14—I10viii 92.23 (4) C4—O12—Ag11 127.9 (9)
O18—Ag14—Ag19 135.0 (2) C4—O12—Ag31i 133.8 (8)
O19xi—Ag14—Ag19 48.0 (2) Ag11—O12—Ag31i 88.9 (3)
O26vi—Ag14—Ag19 82.8 (2) C5iii—O13—Ag30 125.2 (9)
I14—Ag14—Ag19 61.53 (3) C5iii—O13—Ag6 122.5 (8)
I10viii—Ag14—Ag19 80.76 (4) Ag30—O13—Ag6 108.3 (4)
O18—Ag14—Ag13vi 77.6 (3) C5iii—O13—Ag12 110.9 (8)
O19xi—Ag14—Ag13vi 142.8 (2) Ag30—O13—Ag12 92.2 (4)
O26vi—Ag14—Ag13vi 69.0 (2) Ag6—O13—Ag12 84.1 (4)
I14—Ag14—Ag13vi 80.08 (4) C5—O14—Ag29 113.3 (8)
I10viii—Ag14—Ag13vi 131.61 (4) C5—O14—Ag28 128.4 (8)
Ag19—Ag14—Ag13vi 131.82 (4) Ag29—O14—Ag28 96.0 (4)
O21xii—Ag15—O28ix 78.2 (3) C5—O15—Ag13 129.8 (9)
O21xii—Ag15—I13 141.8 (2) C5—O15—Ag34 120.1 (9)
O28ix—Ag15—I13 139.6 (2) Ag13—O15—Ag34 109.4 (5)
O21xii—Ag15—Ag35ix 60.8 (3) C6—O16—Ag8 130.2 (9)
O28ix—Ag15—Ag35ix 74.4 (2) C6—O16—Ag33 95.6 (9)
I13—Ag15—Ag35ix 123.41 (4) Ag8—O16—Ag33 130.1 (4)
O21xii—Ag15—I12ii 89.6 (3) C6—O16—Ag28 127.2 (9)
O28ix—Ag15—I12ii 81.8 (2) Ag8—O16—Ag28 87.6 (3)
I13—Ag15—I12ii 91.30 (4) Ag33—O16—Ag28 75.8 (3)
Ag35ix—Ag15—I12ii 144.96 (4) C6vi—O17—Ag9 117.4 (9)
O21xii—Ag15—Ag16 130.5 (2) C6vi—O17—Ag10viii 114.8 (9)
O28ix—Ag15—Ag16 79.0 (2) Ag9—O17—Ag10viii 121.9 (4)
I13—Ag15—Ag16 75.04 (3) C6vi—O18—Ag32xi 118.7 (9)
Ag35ix—Ag15—Ag16 70.96 (3) C6vi—O18—Ag14 116.9 (9)
I12ii—Ag15—Ag16 129.35 (4) Ag32xi—O18—Ag14 107.9 (4)
O21xii—Ag15—Ag11 78.8 (2) C6vi—O18—Ag33vi 94.4 (8)
O28ix—Ag15—Ag11 156.0 (2) Ag32xi—O18—Ag33vi 119.2 (4)
I13—Ag15—Ag11 64.11 (3) Ag14—O18—Ag33vi 97.7 (4)
Ag35ix—Ag15—Ag11 88.30 (4) C7—O19—Ag19xi 105.2 (8)
I12ii—Ag15—Ag11 104.95 (4) C7—O19—Ag37ii 130.9 (9)
Ag16—Ag15—Ag11 111.47 (4) Ag19xi—O19—Ag37ii 97.9 (4)
O29—Ag16—O24 77.0 (3) C7—O19—Ag14xi 123.9 (8)
O29—Ag16—I15iii 165.1 (2) Ag19xi—O19—Ag14xi 80.9 (3)
O24—Ag16—I15iii 110.7 (2) Ag37ii—O19—Ag14xi 101.9 (4)
O29—Ag16—Ag22 77.1 (2) C7vi—O20—Ag32vi 115.0 (8)
O24—Ag16—Ag22 143.3 (2) C7vi—O20—Ag31 129.7 (8)
I15iii—Ag16—Ag22 89.99 (4) Ag32vi—O20—Ag31 93.9 (3)
O29—Ag16—I16 90.0 (2) C7—O21—Ag36 121.8 (8)
O24—Ag16—I16 151.4 (3) C7—O21—Ag15xiv 127.4 (8)
I15iii—Ag16—I16 88.21 (4) Ag36—O21—Ag15xiv 110.2 (4)
Ag22—Ag16—I16 53.06 (3) C8—O22—Ag11 129.8 (9)
O29—Ag16—Ag15 64.0 (2) C8—O22—Ag35ix 95.9 (8)
O24—Ag16—Ag15 77.3 (2) Ag11—O22—Ag35ix 132.0 (4)
I15iii—Ag16—Ag15 129.34 (4) C8—O22—Ag31i 122.5 (8)
Ag22—Ag16—Ag15 113.22 (4) Ag11—O22—Ag31i 88.7 (3)
I16—Ag16—Ag15 74.05 (3) Ag35ix—O22—Ag31i 75.1 (3)
O25—Ag17—O23ii 85.0 (3) C8—O23—Ag12 121.3 (9)
O25—Ag17—I15 136.3 (2) C8—O23—Ag17iii 111.2 (8)
O23ii—Ag17—I15 128.8 (2) Ag12—O23—Ag17iii 122.2 (4)
O25—Ag17—Ag27ii 129.8 (2) C8—O23—Ag34iii 107.3 (9)
O23ii—Ag17—Ag27ii 119.1 (2) Ag12—O23—Ag34iii 93.1 (3)
I15—Ag17—Ag27ii 62.90 (3) Ag17iii—O23—Ag34iii 92.9 (3)
O25—Ag17—I11ii 88.6 (2) C8—O24—Ag39iii 126.3 (8)
O23ii—Ag17—I11ii 84.6 (2) C8—O24—Ag16 113.6 (8)
I15—Ag17—I11ii 117.69 (4) Ag39iii—O24—Ag16 99.6 (4)
Ag27ii—Ag17—I11ii 54.79 (3) C8—O24—Ag35ix 95.1 (8)
O34iv—Ag18—O32 78.3 (3) Ag39iii—O24—Ag35ix 122.4 (4)
O34iv—Ag18—O27 80.2 (3) Ag16—O24—Ag35ix 96.8 (3)
O32—Ag18—O27 72.9 (3) C9—O25—Ag17 111.5 (8)
O34iv—Ag18—I15 165.0 (3) C9—O25—Ag13 121.2 (8)
O32—Ag18—I15 87.6 (2) Ag17—O25—Ag13 108.8 (4)
O27—Ag18—I15 100.7 (2) C9—O25—Ag34 110.4 (8)
O34iv—Ag18—I16iv 81.7 (2) Ag17—O25—Ag34 98.7 (3)
O32—Ag18—I16iv 103.8 (2) Ag13—O25—Ag34 103.7 (4)
O27—Ag18—I16iv 161.8 (2) C9—O26—Ag37 122.2 (8)
I15—Ag18—I16iv 96.91 (4) C9—O26—Ag33 113.0 (8)
O34iv—Ag18—I14iv 94.9 (3) Ag37—O26—Ag33 111.7 (4)
O32—Ag18—I14iv 155.4 (2) C9—O26—Ag14iv 109.9 (8)
O27—Ag18—I14iv 82.7 (2) Ag37—O26—Ag14iv 101.0 (3)
I15—Ag18—I14iv 100.05 (4) Ag33—O26—Ag14iv 94.6 (3)
I16iv—Ag18—I14iv 98.54 (4) C9—O27—Ag38 133.0 (9)
O34iv—Ag18—Ag23iv 82.8 (2) C9—O27—Ag18 124.7 (8)
O32—Ag18—Ag23iv 51.3 (2) Ag38—O27—Ag18 88.6 (3)
O27—Ag18—Ag23iv 123.8 (2) C9—O27—Ag39 106.7 (8)
I15—Ag18—Ag23iv 84.41 (4) Ag38—O27—Ag39 82.8 (3)
I16iv—Ag18—Ag23iv 53.68 (3) Ag18—O27—Ag39 114.4 (4)
I14iv—Ag18—Ag23iv 152.21 (4) C10ix—O28—Ag20iii 121.7 (8)
O34—Ag19—O19xi 114.5 (4) C10ix—O28—Ag15ix 111.8 (8)
O34—Ag19—I12x 117.8 (3) Ag20iii—O28—Ag15ix 111.6 (4)
O19xi—Ag19—I12x 121.3 (2) C10—O29—Ag35ix 122.2 (8)
O34—Ag19—I14 97.5 (2) C10—O29—Ag40 108.3 (8)
O19xi—Ag19—I14 104.5 (2) Ag35ix—O29—Ag40 113.1 (4)
I12x—Ag19—I14 93.67 (4) C10—O29—Ag16 109.1 (8)
O34—Ag19—Ag14 122.6 (3) Ag35ix—O29—Ag16 103.1 (3)
O19xi—Ag19—Ag14 51.1 (2) Ag40—O29—Ag16 97.9 (3)
I12x—Ag19—Ag14 113.16 (4) C10—O30—Ag21 127.3 (9)
I14—Ag19—Ag14 53.82 (3) C10—O30—Ag1x 130.3 (8)
O28ii—Ag20—O35iii 82.1 (4) Ag21—O30—Ag1x 91.9 (3)
O28ii—Ag20—I12 146.7 (2) C11—O31—Ag39 123.2 (8)
O35iii—Ag20—I12 117.4 (3) C11—O31—Ag40ii 112.4 (8)
O28ii—Ag20—I12xiii 86.8 (2) Ag39—O31—Ag40ii 120.2 (4)
O35iii—Ag20—I12xiii 93.5 (3) C11—O32—Ag38 130.8 (9)
I12—Ag20—I12xiii 116.52 (4) C11—O32—Ag23iv 93.9 (8)
O28ii—Ag20—Ag20xiii 134.3 (3) Ag38—O32—Ag23iv 132.2 (4)
O35iii—Ag20—Ag20xiii 118.4 (3) C11—O32—Ag18 122.9 (8)
I12—Ag20—Ag20xiii 62.66 (4) Ag38—O32—Ag18 88.6 (3)
I12xiii—Ag20—Ag20xiii 53.86 (4) Ag23iv—O32—Ag18 77.2 (3)
O28ii—Ag20—Ag21i 85.4 (2) C11iii—O33—Ag22 127.7 (9)
O35iii—Ag20—Ag21i 127.6 (3) C11iii—O33—Ag4 115.3 (9)
I12—Ag20—Ag21i 61.23 (3) Ag22—O33—Ag4 99.5 (4)
I12xiii—Ag20—Ag21i 136.37 (5) C11iii—O33—Ag23v 92.3 (8)
Ag20xiii—Ag20—Ag21i 106.51 (5) Ag22—O33—Ag23v 121.9 (4)
O30—Ag21—O2 79.1 (3) Ag4—O33—Ag23v 97.2 (3)
O30—Ag21—O4x 74.1 (3) C12—O34—Ag19 110.2 (9)
O2—Ag21—O4x 74.3 (3) C12—O34—Ag18vi 129.5 (9)
O30—Ag21—I12x 125.9 (2) Ag19—O34—Ag18vi 97.1 (4)
O2—Ag21—I12x 136.8 (2) C12—O35—Ag20ii 131.5 (9)
O4x—Ag21—I12x 79.9 (2) C12—O35—Ag36xi 122.3 (9)
O30—Ag21—Ag20x 73.6 (2) Ag20ii—O35—Ag36xi 103.4 (4)
O2—Ag21—Ag20x 143.1 (2) C12—O35—Ag2ii 106.1 (9)
O4x—Ag21—Ag20x 74.6 (2) Ag20ii—O35—Ag2ii 96.9 (4)
I12x—Ag21—Ag20x 53.94 (3) Ag36xi—O35—Ag2ii 79.1 (4)
O30—Ag21—Ag25 127.2 (2) C12—O36—Ag24 123.0 (9)
O2—Ag21—Ag25 54.2 (2) C12—O36—Ag3 127.8 (9)
O4x—Ag21—Ag25 70.9 (2) Ag24—O36—Ag3 109.0 (4)
I12x—Ag21—Ag25 84.99 (4) Ag3v—I1—Ag2iii 104.24 (4)
Ag20x—Ag21—Ag25 130.08 (4) Ag3v—I1—Ag36v 89.58 (4)
O30—Ag21—Ag22 55.6 (2) Ag2iii—I1—Ag36v 64.56 (4)
O2—Ag21—Ag22 70.8 (2) Ag3v—I1—Ag1iii 149.04 (4)
O4x—Ag21—Ag22 122.5 (2) Ag2iii—I1—Ag1iii 69.62 (4)
I12x—Ag21—Ag22 151.34 (5) Ag36v—I1—Ag1iii 112.72 (4)
Ag20x—Ag21—Ag22 111.13 (4) Ag3v—I1—Ag38iii 65.28 (4)
Ag25—Ag21—Ag22 117.60 (4) Ag2iii—I1—Ag38iii 76.39 (4)
O30—Ag21—I16 75.0 (2) Ag36v—I1—Ag38iii 126.35 (4)
O2—Ag21—I16 123.0 (2) Ag1iii—I1—Ag38iii 83.94 (4)
O4x—Ag21—I16 140.2 (2) Ag40—I2—Ag4 78.75 (4)
I12x—Ag21—I16 98.92 (4) Ag40—I2—Ag1x 77.99 (4)
Ag20x—Ag21—I16 73.11 (3) Ag4—I2—Ag1x 117.64 (4)
Ag25—Ag21—I16 148.87 (4) Ag40—I2—Ag40ix 62.35 (4)
Ag22—Ag21—I16 52.54 (3) Ag4—I2—Ag40ix 114.93 (4)
O30—Ag21—I14 142.3 (2) Ag1x—I2—Ag40ix 103.32 (4)
O2—Ag21—I14 76.0 (2) Ag40—I2—Ag35 126.08 (4)
O4x—Ag21—I14 124.2 (2) Ag4—I2—Ag35 86.42 (3)
I12x—Ag21—I14 91.35 (4) Ag1x—I2—Ag35 150.55 (4)
Ag20x—Ag21—I14 139.39 (4) Ag40ix—I2—Ag35 78.70 (3)
Ag25—Ag21—I14 53.40 (3) Ag37—I3—Ag38 67.95 (4)
Ag22—Ag21—I14 89.28 (4) Ag37—I3—Ag36iii 83.76 (4)
I16—Ag21—I14 95.52 (4) Ag38—I3—Ag36iii 112.46 (4)
O1vi—Ag22—O33 82.5 (3) Ag37—I3—Ag2 116.41 (4)
O1vi—Ag22—I16 135.6 (2) Ag38—I3—Ag2 79.14 (4)
O33—Ag22—I16 135.6 (3) Ag36iii—I3—Ag2 159.74 (4)
O1vi—Ag22—Ag16 159.3 (2) Ag37—I3—Ag3iii 127.86 (4)
O33—Ag22—Ag16 78.8 (2) Ag38—I3—Ag3iii 161.60 (4)
I16—Ag22—Ag16 65.13 (3) Ag36iii—I3—Ag3iii 81.11 (4)
O1vi—Ag22—Ag21 82.9 (2) Ag2—I3—Ag3iii 84.43 (4)
O33—Ag22—Ag21 159.8 (3) Ag37—I3—Ag7iii 61.85 (3)
I16—Ag22—Ag21 63.87 (3) Ag38—I3—Ag7iii 108.36 (4)
Ag16—Ag22—Ag21 112.64 (4) Ag36iii—I3—Ag7iii 109.16 (4)
O1vi—Ag22—Ag40 96.1 (2) Ag2—I3—Ag7iii 81.01 (3)
O33—Ag22—Ag40 64.5 (3) Ag3iii—I3—Ag7iii 76.84 (3)
I16—Ag22—Ag40 118.73 (4) Ag30—I4—Ag34iii 81.99 (4)
Ag16—Ag22—Ag40 67.66 (3) Ag30—I4—Ag31i 74.28 (4)
Ag21—Ag22—Ag40 103.41 (4) Ag34iii—I4—Ag31i 115.44 (4)
O8—Ag23—O32vi 109.4 (3) Ag30—I4—Ag10ix 61.77 (3)
O8—Ag23—O33v 75.6 (3) Ag34iii—I4—Ag10ix 114.25 (4)
O32vi—Ag23—O33v 52.0 (3) Ag31i—I4—Ag10ix 105.30 (4)
O8—Ag23—I16 136.2 (2) Ag30—I4—Ag5iii 130.53 (4)
O32vi—Ag23—I16 111.5 (2) Ag34iii—I4—Ag5iii 91.62 (4)
O33v—Ag23—I16 144.5 (2) Ag31i—I4—Ag5iii 147.28 (4)
O8—Ag23—Ag3 69.2 (2) Ag10ix—I4—Ag5iii 77.21 (3)
O32vi—Ag23—Ag3 58.2 (2) Ag5—I5—Ag39 104.44 (4)
O33v—Ag23—Ag3 78.6 (2) Ag5—I5—Ag1 70.03 (4)
I16—Ag23—Ag3 122.38 (4) Ag39—I5—Ag1 80.84 (4)
O8—Ag23—Ag18vi 160.8 (2) Ag5—I5—Ag6 67.44 (3)
O32vi—Ag23—Ag18vi 51.5 (2) Ag39—I5—Ag6 161.34 (4)
O33v—Ag23—Ag18vi 90.8 (2) Ag1—I5—Ag6 110.23 (4)
I16—Ag23—Ag18vi 61.30 (3) Ag7—I6—Ag8 66.89 (4)
Ag3—Ag23—Ag18vi 95.20 (4) Ag7—I6—Ag37ii 65.28 (4)
O8—Ag23—I15iii 82.2 (2) Ag8—I6—Ag37ii 109.53 (4)
O32vi—Ag23—I15iii 123.7 (2) Ag7—I6—Ag6ii 72.96 (4)
O33v—Ag23—I15iii 81.2 (2) Ag8—I6—Ag6ii 112.38 (4)
I16—Ag23—I15iii 87.77 (4) Ag37ii—I6—Ag6ii 99.26 (4)
Ag3—Ag23—I15iii 148.22 (4) Ag7—I6—Ag32 123.20 (4)
Ag18vi—Ag23—I15iii 109.47 (4) Ag8—I6—Ag32 80.53 (4)
O8—Ag23—Ag24 78.6 (2) Ag37ii—I6—Ag32 85.53 (4)
O32vi—Ag23—Ag24 119.7 (2) Ag6ii—I6—Ag32 163.28 (4)
O33v—Ag23—Ag24 146.2 (2) Ag7—I6—Ag33ii 131.29 (4)
I16—Ag23—Ag24 68.21 (3) Ag8—I6—Ag33ii 160.12 (4)
Ag3—Ag23—Ag24 71.92 (3) Ag37ii—I6—Ag33ii 77.48 (3)
Ag18vi—Ag23—Ag24 107.84 (4) Ag6ii—I6—Ag33ii 83.85 (3)
I15iii—Ag23—Ag24 116.54 (4) Ag32—I6—Ag33ii 81.56 (3)
O36—Ag24—O5ii 88.3 (4) Ag9iv—I7—Ag35v 108.57 (4)
O36—Ag24—I13 141.2 (3) Ag9iv—I7—Ag31iv 80.64 (4)
O5ii—Ag24—I13 121.8 (3) Ag35v—I7—Ag31iv 64.19 (3)
O36—Ag24—Ag29 148.0 (3) Ag9iv—I7—Ag4v 63.67 (3)
O5ii—Ag24—Ag29 64.4 (3) Ag35v—I7—Ag4v 89.99 (4)
I13—Ag24—Ag29 58.04 (3) Ag31iv—I7—Ag4v 126.55 (4)
O36—Ag24—I12ii 118.6 (3) Ag9iv—I7—Ag8 64.37 (3)
O5ii—Ag24—I12ii 89.4 (2) Ag35v—I7—Ag8 149.45 (4)
I13—Ag24—I12ii 88.12 (4) Ag31iv—I7—Ag8 85.27 (4)
Ag29—Ag24—I12ii 79.51 (4) Ag4v—I7—Ag8 110.26 (4)
O36—Ag24—Ag23 57.8 (3) Ag12—I8—Ag33 110.71 (4)
O5ii—Ag24—Ag23 133.5 (2) Ag12—I8—Ag28 82.39 (4)
I13—Ag24—Ag23 83.41 (4) Ag33—I8—Ag28 65.73 (3)
Ag29—Ag24—Ag23 130.45 (4) Ag12—I8—Ag6 65.99 (4)
I12ii—Ag24—Ag23 133.17 (4) Ag33—I8—Ag6 89.96 (4)
O11x—Ag25—O6x 79.4 (3) Ag28—I8—Ag6 130.27 (4)
O11x—Ag25—O2 119.2 (3) Ag12—I8—Ag11 63.06 (3)
O6x—Ag25—O2 99.0 (3) Ag33—I8—Ag11 151.23 (4)
O11x—Ag25—I14 134.1 (2) Ag28—I8—Ag11 85.50 (4)
O6x—Ag25—I14 141.5 (3) Ag6—I8—Ag11 110.18 (4)
O2—Ag25—I14 81.2 (2) Ag13vi—I9—Ag32vi 103.36 (4)
O11x—Ag25—Ag21 160.3 (2) Ag13vi—I9—Ag26vi 87.69 (4)
O6x—Ag25—Ag21 85.3 (2) Ag32vi—I9—Ag26vi 62.62 (3)
O2—Ag25—Ag21 51.0 (2) Ag13vi—I9—Ag31 147.96 (4)
I14—Ag25—Ag21 64.85 (3) Ag32vi—I9—Ag31 70.35 (3)
O11x—Ag25—Ag5x 67.4 (2) Ag26vi—I9—Ag31 114.28 (4)
O6x—Ag25—Ag5x 82.1 (3) Ag13vi—I9—Ag8vi 65.83 (4)
O2—Ag25—Ag5x 52.5 (2) Ag32vi—I9—Ag8vi 78.44 (4)
I14—Ag25—Ag5x 123.97 (4) Ag26vi—I9—Ag8vi 126.18 (4)
Ag21—Ag25—Ag5x 98.37 (4) Ag31—I9—Ag8vi 82.18 (3)
O3iv—Ag26—O10iv 79.4 (3) Ag10—I10—Ag11x 70.22 (4)
O3iv—Ag26—I11ii 106.6 (2) Ag10—I10—Ag30ix 64.37 (4)
O10iv—Ag26—I11ii 162.0 (2) Ag11x—I10—Ag30ix 108.77 (4)
O3iv—Ag26—I9iv 153.3 (2) Ag10—I10—Ag29x 124.39 (4)
O10iv—Ag26—I9iv 88.8 (2) Ag11x—I10—Ag29x 83.63 (4)
I11ii—Ag26—I9iv 91.93 (4) Ag30ix—I10—Ag29x 80.35 (4)
O3iv—Ag26—Ag32 141.6 (2) Ag10—I10—Ag14vii 79.57 (4)
O10iv—Ag26—Ag32 80.3 (2) Ag11x—I10—Ag14vii 115.52 (4)
I11ii—Ag26—Ag32 85.04 (4) Ag30ix—I10—Ag14vii 106.73 (4)
I9iv—Ag26—Ag32 57.17 (3) Ag29x—I10—Ag14vii 154.60 (4)
O8—Ag27—O1iii 85.1 (3) Ag27—I11—Ag28 79.43 (4)
O8—Ag27—I11 137.3 (2) Ag27—I11—Ag26iii 80.72 (4)
O1iii—Ag27—I11 127.0 (2) Ag28—I11—Ag26iii 119.27 (4)
O8—Ag27—Ag17iii 128.9 (2) Ag27—I11—Ag17iii 61.83 (3)
O1iii—Ag27—Ag17iii 120.2 (2) Ag28—I11—Ag17iii 105.19 (4)
I11—Ag27—Ag17iii 63.38 (3) Ag26iii—I11—Ag17iii 114.20 (4)
O8—Ag27—I15iii 86.6 (2) Ag27—I11—Ag13iii 122.19 (4)
O1iii—Ag27—I15iii 86.8 (2) Ag28—I11—Ag13iii 153.98 (4)
I11—Ag27—I15iii 118.44 (4) Ag26iii—I11—Ag13iii 81.20 (3)
Ag17iii—Ag27—I15iii 55.06 (3) Ag17iii—I11—Ag13iii 77.16 (3)
O14—Ag28—O9 77.4 (4) Ag20—I12—Ag19i 120.04 (4)
O14—Ag28—O16 80.8 (3) Ag20—I12—Ag21i 64.83 (3)
O9—Ag28—O16 74.4 (3) Ag19i—I12—Ag21i 82.59 (4)
O14—Ag28—I11 166.7 (3) Ag20—I12—Ag20xiii 63.48 (4)
O9—Ag28—I11 98.4 (3) Ag19i—I12—Ag20xiii 84.97 (4)
O16—Ag28—I11 85.9 (2) Ag21i—I12—Ag20xiii 109.61 (4)
O14—Ag28—I8 85.5 (3) Ag20—I12—Ag15iii 130.11 (4)
O9—Ag28—I8 162.8 (3) Ag19i—I12—Ag15iii 84.83 (4)
O16—Ag28—I8 105.2 (2) Ag21i—I12—Ag15iii 164.41 (4)
I11—Ag28—I8 98.73 (4) Ag20xiii—I12—Ag15iii 78.30 (3)
O14—Ag28—Ag33 85.1 (3) Ag20—I12—Ag24iii 81.27 (4)
O9—Ag28—Ag33 124.9 (2) Ag19i—I12—Ag24iii 158.30 (4)
O16—Ag28—Ag33 51.2 (2) Ag21i—I12—Ag24iii 112.73 (4)
I11—Ag28—Ag33 87.18 (4) Ag20xiii—I12—Ag24iii 102.95 (4)
I8—Ag28—Ag33 54.47 (3) Ag15iii—I12—Ag24iii 77.23 (3)
O14—Ag28—I13 91.9 (3) Ag15—I13—Ag24 90.20 (4)
O9—Ag28—I13 78.4 (2) Ag15—I13—Ag29 105.36 (4)
O16—Ag28—I13 152.8 (2) Ag24—I13—Ag29 65.28 (4)
I11—Ag28—I13 99.65 (4) Ag15—I13—Ag28 148.85 (4)
I8—Ag28—I13 100.34 (4) Ag24—I13—Ag28 113.66 (4)
Ag33—Ag28—I13 154.77 (4) Ag29—I13—Ag28 70.21 (3)
O14—Ag29—O6ii 119.4 (4) Ag25—I14—Ag14 92.63 (4)
O14—Ag29—I13 101.0 (3) Ag25—I14—Ag19 101.58 (4)
O6ii—Ag29—I13 136.3 (3) Ag14—I14—Ag19 64.65 (3)
O14—Ag29—I10i 117.1 (3) Ag25—I14—Ag18vi 144.30 (4)
O6ii—Ag29—I10i 83.1 (2) Ag14—I14—Ag18vi 112.82 (4)
I13—Ag29—I10i 93.27 (4) Ag19—I14—Ag18vi 70.24 (3)
O14—Ag29—Ag24 123.4 (3) Ag25—I14—Ag21 61.75 (3)
O6ii—Ag29—Ag24 85.7 (2) Ag14—I14—Ag21 128.69 (4)
I13—Ag29—Ag24 56.68 (3) Ag19—I14—Ag21 77.33 (3)
I10i—Ag29—Ag24 115.57 (4) Ag18vi—I14—Ag21 82.60 (3)
O14—Ag29—Ag7 70.3 (3) Ag17—I15—Ag16ii 78.40 (4)
O6ii—Ag29—Ag7 74.4 (2) Ag17—I15—Ag18 78.39 (4)
I13—Ag29—Ag7 107.45 (4) Ag16ii—I15—Ag18 115.08 (4)
I10i—Ag29—Ag7 156.56 (5) Ag17—I15—Ag27ii 62.03 (3)
Ag24—Ag29—Ag7 69.80 (4) Ag16ii—I15—Ag27ii 114.94 (4)
O13—Ag30—O11 76.6 (3) Ag18—I15—Ag27ii 105.28 (4)
O13—Ag30—I4 114.9 (3) Ag17—I15—Ag23ii 126.19 (4)
O11—Ag30—I4 144.5 (2) Ag16ii—I15—Ag23ii 88.27 (4)
O13—Ag30—I10ix 102.7 (3) Ag18—I15—Ag23ii 150.50 (4)
O11—Ag30—I10ix 88.6 (2) Ag27ii—I15—Ag23ii 78.17 (3)
I4—Ag30—I10ix 118.60 (5) Ag22—I16—Ag23 108.58 (4)
O13—Ag30—Ag10ix 134.2 (3) Ag22—I16—Ag18vi 82.22 (4)
O11—Ag30—Ag10ix 133.0 (2) Ag23—I16—Ag18vi 65.03 (3)
I4—Ag30—Ag10ix 64.17 (3) Ag22—I16—Ag21 63.58 (3)
I10ix—Ag30—Ag10ix 54.85 (3) Ag23—I16—Ag21 148.35 (4)
O20—Ag31—O12x 77.9 (3) Ag18vi—I16—Ag21 83.34 (4)
O20—Ag31—O22x 78.3 (3) Ag22—I16—Ag16 61.81 (3)
O12x—Ag31—O22x 75.6 (3) Ag23—I16—Ag16 89.39 (4)
O20—Ag31—I4x 165.3 (2) Ag18vi—I16—Ag16 126.65 (4)
O12x—Ag31—I4x 101.3 (2) Ag21—I16—Ag16 110.02 (4)
O22x—Ag31—I4x 87.2 (2)
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Symmetry codes: (i) −x, y−1/2, −z+1/2; (ii) x, −y+1/2, z−1/2; (iii) x, −y+1/2, z+1/2; (iv) −x+1, y−1/2, −z+1/2; (v) −x+1, −y+1, −z+1; (vi) −x+1, y+1/2, −z+1/2; (vii) x, −y+3/2, z+1/2; (viii) x, −y+3/2, z−1/2; (ix) −x, −y+1, −z+1; (x) −x, y+1/2, −z+1/2; (xi) −x+1, −y+1, −z; (xii) x−1, y, z; (xiii) −x, −y, −z+1; (xiv) x+1, y, z.

Funding Statement

This work was funded by Murata Science Foundation grant H30-95.

References

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Associated Data

This section collects any data citations, data availability statements, or supplementary materials included in this article.

Supplementary Materials

Crystal structure: contains datablock(s) global, I. DOI: 10.1107/S2056989021006022/wm5603sup1.cif

e-77-00734-sup1.cif (3.5MB, cif)

Structure factors: contains datablock(s) I. DOI: 10.1107/S2056989021006022/wm5603Isup2.hkl

e-77-00734-Isup2.hkl (1.2MB, hkl)

Rietveld powder data: contains datablock(s) I. DOI: 10.1107/S2056989021006022/wm5603Isup4.rtv

e-77-00734-Isup4.rtv (389KB, rtv)

Supplementary figures (Figs. S1-S3). DOI: 10.1107/S2056989021006022/wm5603sup3.pdf

e-77-00734-sup3.pdf (995.5KB, pdf)

CCDC reference: 2088991

Additional supporting information: crystallographic information; 3D view; checkCIF report

Articles from Acta Crystallographica Section E: Crystallographic Communications are provided here courtesy of International Union of Crystallography

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