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Acta Cryst. (2009). C65, i87-i90
https://doi.org/10.1107/S0108270109047301
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Cr1.45Tl1.87Mo15Se19, a monoclinic variant of the hexa­gonal In3Mo15Se19 type

P. Gougeon, D. Salloum and M. Potel
The monoclinic compound Cr1.45Tl1.87Mo15Se19 (chromium thallium penta­deca­molybdenum nona­deca­selenide) represents a variant of the hexa­gonal In3Mo15Se19 structure type. Its crystal structure consists of an equal mixture of Mo6Se8Se6 and Mo9Se11Se6 cluster units. The Mo and Se atoms of the median plane of the Mo9Se11Se6 unit, as well as three Cr ions, lie on sites with m symmetry (Wyckoff site 2e). The fourth Cr ion is in a 2b Wyckoff position with \overline{1} site symmetry.
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Supporting information

cif

Crystallographic Information File (CIF) https://doi.org/10.1107/S0108270109047301/lg3024sup1.cif
Contains datablocks global, I

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S0108270109047301/lg3024Isup2.hkl
Contains datablock I

Comment top

Thirty years ago, Grüttner et al. (1979) reported the crystal structures of the hexagonal compounds In2.9Mo15Se19 and In3.3Mo15Se19, which were the first compounds containing a transition metal cluster with a nuclearity higher than six, namely the dioctahedral Mo9 cluster. This cluster, which results from the face-sharing of two Mo6 octahedra, coexists with the octahedral Mo6 cluster in equal proportions. Both clusters are surrounded by Se atoms to form Mo6Se8Se6 and Mo9Se11Se6 units that share some of their Se atoms to create the three-dimensional Mo–Se framework. The In atoms occupy two crystallographically different positions, depending on their formal oxidation state of +1 or +3. While the In+ site is fully occupied, the In3+ site presents a non-stoichiometry that leads to compositions ranging from In3+0.9In+2Mo15Se19 to In3+1.3In+2Mo15Se19. Interest in these Mo cluster compounds lies not only in their structural aspects but also in their physical properties, because they show superconductivity with high critical magnetic fields at about 4 K. We present here the synthesis and the crystal structure of Cr1.45Tl1.87Mo15Se19, which constitutes a monoclinic variant of the In3Mo15Se19 structure type.

A view of the crystal structure of Cr1.45Tl1.87Mo15Se19 is shown in Fig. 1. The Mo–Se framework is similar to that of the In3Mo15Se19 compounds and consists of an equal mixture of Mo6Se8Se6 and Mo9Se11Se6 cluster units interconnected through Mo—Se bonds (Fig. 2). The first unit can be described as an Mo6 octahedron surrounded by eight face-capping inner Sei and six apical Sea ligands; for details of the i- and a-type ligand notation, see Schäfer & Schnering (1964). The Mo9 core of the second unit results from the one-dimensional trans face-sharing of two octahedral Mo6 clusters. The Mo9 cluster is surrounded by 11 Sei atoms capping the faces of the dioctahedron and six apical Sea ligands above the terminal Mo atoms. The Mo6Se8Se6 and Mo9Se11Se6 units are centred at 2a and 2e Wyckoff positions and thus have point group symmetries 1 and m, respectively, instead of 3.. and 6.. in the hexagonal In3Mo15Se19 compounds. The Mo—Mo distances within the Mo6 clusters are between 2.6769 (8) and 2.7252 (7) Å and those within the Mo9 clusters are between 2.6278 (9) and 2.7491 (7) Å. These values are comparable with those observed in the In3Mo15Se19 compounds.

The Se atoms bridge either one (Se1 to Se7) or two (Se8, Se9 and Se10) Mo triangular faces of the clusters. Moreover, atoms Se1, Se2, Se3, Se5, Se6 and Se7 are linked to an Mo atom of a neighbouring cluster. The Mo—Se bond distances range from 2.5436 (9) to 2.6610 (6) Å within the Mo6Se8Se6 unit and from 2.5421 (7) to 2.7001 (8) Å within the Mo9Se11Se6 unit. Each Mo9Se11Se6 unit is connected to six Mo6Se8Se6 units (and vice versa) via Mo—Sea-i bonds to form the three-dimensional Mo—Se framework, the connective formula of which is Mo9Sei5Sei-a6/2Sea-i6/2, Mo6Sei2Sei-a6/2Sea-i6/2. As a result of this arrangement, the shortest intercluster Mo···Mo distance between the Mo6 and Mo9 clusters is 3.4409 (8) Å, indicating only a weak metal–metal interaction. This distance is a little shorter than the value of 3.512 (8) Å observed for In3.3Mo15Se19.

The main difference between Cr1.45Tl2Mo15Se19 and the indium compounds lies in the distribution of the trivalent cations. Indeed, in addition to the triangular group of distorted octahedral sites located between two consecutive Mo6Se8Se6 units, the Cr atoms partially occupy a supplementary site located at the mid-point of the a axis (2b position). In the monoclinic compound Cr1.45Tl1.87Mo15Se19, atoms Cr1, Cr2 and Cr3 occupy the distorted octahedral sites located between two consecutive Mo6Se8Se6 units that are occupied by trivalent indium in the In3Mo15Se19 compounds (Fig. 3a). The loss of the threefold axis leads to three crystallographically independent sites with site-occupancy factors of 0.619 (6), 0.313 (6) and 0.125 (6), compared with the trivalent indium with site occupancies of 0.29 (5) for In2.9Mo15Se19 and 0.44 (2) for In3.3Mo15Se19. The Cr—Se distances are in the ranges 2.515 (2)–2.850 (3), 2.524 (3)–2.798 (2) and 2.501 (8)–2.9635 (6) Å for the Cr1, Cr2 and Cr3 sites, respectively. Atoms Cr4 in the 2b Wyckoff position also occupy a distorted octahedral site of Se, with Cr—Se distances ranging from 2.3096 (6) to 2.9635 (6) Å.

The Tl+ cation of Cr1.45Tl1.87Mo15Se19 replaces the monovalent In+ in the large ten-coordinated sites of the chalcogen atoms (Fig. 3b). While the In+ site centred on the threefold axis has 3.. symmetry, the Tl+ site has no imposed symmetry. The Tl—Se distances range from 3.1152 (11) to 4.2214 (9) Å. The large Uiso value for Tl, which is about five times higher than those for the Mo atoms and three to four times higher than those for the Se and Cr atoms, is due to the large voids that it occupies and does not result from an artefact due to the correlations (0.506 in our case) between the atomic displacement parameters (ADPs) and the site-occupation factor of the Tl atom. This is corroborated by the fact that similar ratios are observed in other reduced molybdenum chalcogenides such as Tl2Mo6Se6 (Potel et al., 1980a) or Tl2Mo9S11 (Potel et al., 1980b), in which the Tl sites are fully occupied. While in the In3Mo15Se19 structure type the monovalent In+ site is fully occupied, in the title compound the Tl+ site is only 0.935 (2) occupied. This probably results from the higher temperature used during the crystal growth process, which leads to a loss of TlSe because of its high volatility at 1773 K. It is interesting to note that a similar site-occupation factor of 0.94 (1) is found when refining using SHELXL (Sheldrick, 2008) a model with two Tl positions and harmonic ADPs and with only one twinning matrix.

Experimental top

Single crystals of Cr1.45Tl1.87Mo15Se19 were prepared from a mixture of Cr2Se3, MoSe2, TlSe and Mo with the nominal composition Cr1.5Tl2Mo15Se19. Before use, Mo powder was reduced under flowing H2 gas at 1273 K for 10 h in order to eliminate any trace of oxygen. The binaries Cr2Se3, MoSe2 and TlSe were obtained by heating stoichiometric mixtures of the elements in sealed evacuated silica tubes for about 2 d. All handling of materials was done in an argon-filled glove box. The initial mixture (ca 5 g) was cold pressed and loaded into a molybdenum crucible, which was then sealed under a low argon pressure using an arc-welding system. The charge was heated at a rate of 300 K h-1 up to 1773 K, held at that temperature for 48 h, cooled at 100 K h-1 down to 1373 K and finally furnace cooled.

Refinement top

Numerous crystals were tested on a Nonius KappaCCD diffractometer. Most of them presented a substantial mosaic spread, leading to unreliable lattice parameters close to an hexagonal unit cell. For these crystals, the mosaicity as defined by DENZO (Otwinowski & Minor, 1997) was of about 2°, indicating that they are strongly twinned. For the studied crystal, the mosaicity was only 0.496 (1)°, as usually observed for good single crystals. On the other hand, all the Bragg spots found using the ϕ/χ procedure (Duisenberg et al., 2000) could be indexed, indicating that if the crystal were twinned the twinning was very weak. Consequently, the integration of the Bragg spots from the collected frames was made with the orientation matrix deduced from the ϕ/χ procedure and, in order to take into account the possible existence of non-overlapping spots at high diffraction angles, large integration boxes were used. The structure was solved using SIR97 (Altomare et al., 1999) and subsequent difference Fourier syntheses, and was refined in an anisotropic approximation down to R = 0.077. Because the lattice parameters are close to a hexagonal system, the existence of twin domains was envisaged in the studied crystal. As the space group P21/m is a subgroup of index 3 of the space group P63/m, six twin domains can exist, according to the procedure implemented in JANA2006 (Petříček et al., 2006), which decomposes a point group into cosets with respect to a subgroup. Consequently, six twin matrices corresponding to the identity (T1) and the clockwise (T2) and anticlockwise (T3) three-fold rotations about b, and the three inverse matrices of these (T4, T5, and T6), were introduced into the refinement. This lowered the R factor to 0.055. At this stage, analysis of the difference Fourier map revealed positive and negative residual peaks of 11.02 and -9.84 e Å-3 around the Tl atom (Fig. 4a). Fourth-order tensors in the Gram–Charlier expansion (Johnson & Levy, 1974) of the thallium displacement factor were used to better describe the electronic density around the cationic site. The residual R value dropped to 0.0489 and the residual peaks in the vicinity of Tl1 dropped to 2.92 and -2.08 e Å-3, respectively (Fig. 4b). Fig. 5 shows the non-harmonic probability density function map for Tl1 in the bc plane. The absence of a significant negative region indicates that the refined model can be considered valid (Bachmann & Schulz, 1984). At the end of the refinement, the fractional volumes of the twin domains were 0.947 (2), 0.008 (1), 0.011 (1), 0.0262 (4), 0 and 0.0079 (4) for matrices T1–T6, respectively. Refinement of the occupancy factors of the Tl and Cr atoms led to the final stoichiometry Cr1.45 (2)Tl1.870 (4)Mo15Se19.

Computing details top

Data collection: COLLECT (Nonius, 1998); cell refinement: COLLECT (Nonius, 1998); data reduction: EVALCCD (Duisenberg, 1998); program(s) used to solve structure: SIR97 (Altomare et al., 1999); program(s) used to refine structure: JANA2006 (Petříček et al., 2006); molecular graphics: DIAMOND (Brandenburg, 2001); software used to prepare material for publication: JANA2006 (Petříček et al., 2006).

Figures top
[Figure 1] Fig. 1. A view of Cr1.45 (2)Tl1.870 (4)Mo15Se19, along [110]. Displacement ellipsoids are drawn at the 97% probability level.
[Figure 2] Fig. 2. Plot showing the atom-numbering scheme and the interunit linkage of the Mo9Se11Se6 and Mo6Se8Se6 cluster units. Displacement ellipsoids are drawn at the 97% probability level.
[Figure 3] Fig. 3. (a) The distribution of the Cr1, Cr2 and Cr3 atoms. (b) The environment of the Tl atom. (Symmetry codes are given in Table 1.)
[Figure 4] Fig. 4. Difference Fourier maps around the Tl1 mean position (large central circles). (a) Harmonic refinement (minimum and maximum densities: -9.84 and 11.02 e Å-3, respectively; step: 0.5 e Å-3). (b) Non-harmonic refinement (minimum and maximum densities: -2.08 and 2.92 e Å-3, respectively; step: 0.5 e Å-3).
[Figure 5] Fig. 5. Non-harmonic probability density function map of Tl1 in the bc plane (minimum and maximum densities: -0.086 and 8.7905 Å-3, respectively; step: 0.5 Å-3).
chromium thallium pentadecamolybdenum nonadecaselenide top
Crystal data top
Cr1.453Tl1.87Mo15Se19F(000) = 2921.3
Mr = 3396.7Dx = 7.012 (1) Mg m3
Monoclinic, P21/mMo Kα radiation, λ = 0.71069 Å
Hall symbol: -P 2ybCell parameters from 35623 reflections
a = 9.7347 (1) Åθ = 2.6–40°
b = 19.2639 (3) ŵ = 36.91 mm1
c = 9.7987 (1) ÅT = 293 K
β = 118.9305 (8)°Irregular block, black
V = 1608.22 (4) Å30.10 × 0.05 × 0.04 mm
Z = 2
Data collection top
Nonius KappaCCD area-detector
diffractometer		10161 independent reflections
Radiation source: fine-focus sealed tube6942 reflections with I > 2σ(I)
Horizontally mounted graphite crystal monochromatorRint = 0.087
Detector resolution: 9 pixels mm-1θmax = 40°, θmin = 2.6°
CCD scansh = 1717
Absorption correction: analytical
(de Meulenaer & Tompa, 1965)		k = 3430
Tmin = 0.097, Tmax = 0.331l = 1317
36020 measured reflections
Refinement top
Refinement on F20 constraints
R[F2 > 2σ(F2)] = 0.049Weighting scheme based on measured s.u.'s w = 1/[σ2(I) + 0.0004I2]
wR(F2) = 0.087(Δ/σ)max = 0.001
S = 1.49Δρmax = 4.01 e Å3
10161 reflectionsΔρmin = 3.97 e Å3
231 parametersExtinction correction: B-C type 1 Lorentzian isotropic (Becker & Coppens, 1974)
0 restraintsExtinction coefficient: 24 (2)
Crystal data top
Cr1.453Tl1.87Mo15Se19V = 1608.22 (4) Å3
Mr = 3396.7Z = 2
Monoclinic, P21/mMo Kα radiation
a = 9.7347 (1) ŵ = 36.91 mm1
b = 19.2639 (3) ÅT = 293 K
c = 9.7987 (1) Å0.10 × 0.05 × 0.04 mm
β = 118.9305 (8)°
Data collection top
Nonius KappaCCD area-detector
diffractometer		10161 independent reflections
Absorption correction: analytical
(de Meulenaer & Tompa, 1965)		6942 reflections with I > 2σ(I)
Tmin = 0.097, Tmax = 0.331Rint = 0.087
36020 measured reflections
Refinement top
R[F2 > 2σ(F2)] = 0.049231 parameters
wR(F2) = 0.0870 restraints
S = 1.49Δρmax = 4.01 e Å3
10161 reflectionsΔρmin = 3.97 e Å3
Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/UeqOcc. (<1)
Tl10.33151 (8)0.14083 (5)0.18015 (7)0.0422 (4)0.935 (2)
Mo10.16499 (6)0.05719 (2)0.34944 (5)0.00870 (16)
Mo20.14830 (6)0.05709 (3)0.47925 (5)0.00920 (16)
Mo30.01284 (6)0.05844 (3)0.66287 (5)0.00915 (16)
Mo40.67965 (6)0.13402 (2)0.00038 (5)0.00881 (15)
Mo50.50311 (6)0.13368 (2)0.30639 (5)0.00874 (15)
Mo60.81247 (6)0.13316 (2)0.17782 (5)0.00894 (15)
Mo70.51118 (8)0.250.14722 (7)0.0094 (2)
Mo80.82911 (8)0.250.00939 (8)0.0092 (2)
Mo90.65530 (8)0.250.32165 (7)0.0090 (2)
Se10.31730 (7)0.05528 (4)0.77613 (7)0.0154 (2)
Se20.28938 (7)0.05306 (3)0.53421 (6)0.01092 (19)
Se30.03204 (7)0.04989 (3)0.17830 (6)0.01145 (19)
Se40.00315 (8)0.16312 (3)0.49758 (7)0.0139 (2)
Se50.37209 (7)0.13922 (3)0.12616 (6)0.01205 (19)
Se60.63497 (7)0.14175 (3)0.48501 (7)0.01162 (19)
Se70.98750 (7)0.14074 (3)0.12255 (6)0.01156 (19)
Se80.68551 (10)0.250.15550 (9)0.0125 (3)
Se90.96100 (10)0.250.18701 (10)0.0129 (3)
Se100.34983 (10)0.250.44925 (9)0.0125 (3)
Se110.66255 (7)0.02760 (3)0.16200 (7)0.0131 (2)
Cr10.8020 (3)0.250.4841 (3)0.0152 (9)0.619 (5)
Cr20.1784 (5)0.250.2952 (5)0.0110 (15)0.313 (5)
Cr30.0208 (12)0.250.6781 (11)0.010 (4)0.126 (5)
Cr40.5010.033 (2)0.395 (6)
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
Tl10.0269 (4)0.0657 (7)0.0315 (4)0.0013 (4)0.0122 (3)0.0058 (4)
Mo10.0103 (2)0.0071 (2)0.00961 (19)0.00074 (16)0.00553 (17)0.00067 (15)
Mo20.0099 (2)0.0067 (2)0.01185 (19)0.00010 (16)0.00598 (18)0.00004 (15)
Mo30.0110 (2)0.0068 (2)0.01094 (19)0.00043 (16)0.00632 (17)0.00021 (15)
Mo40.0104 (2)0.0070 (2)0.00942 (18)0.00036 (16)0.00506 (16)0.00032 (15)
Mo50.0103 (2)0.0070 (2)0.00919 (18)0.00047 (16)0.00485 (17)0.00029 (14)
Mo60.0099 (2)0.0072 (2)0.00956 (18)0.00045 (16)0.00459 (16)0.00010 (15)
Mo70.0112 (3)0.0073 (3)0.0093 (3)00.0046 (2)0
Mo80.0112 (3)0.0067 (3)0.0101 (3)00.0055 (2)0
Mo90.0110 (3)0.0064 (3)0.0097 (3)00.0050 (2)0
Se10.0132 (3)0.0195 (3)0.0150 (3)0.0056 (2)0.0081 (2)0.0093 (2)
Se20.0113 (2)0.0107 (3)0.0118 (2)0.0022 (2)0.0065 (2)0.00103 (19)
Se30.0130 (3)0.0113 (3)0.0114 (2)0.0009 (2)0.0069 (2)0.00114 (19)
Se40.0174 (3)0.0067 (2)0.0165 (3)0.0002 (2)0.0073 (2)0.0002 (2)
Se50.0113 (2)0.0131 (3)0.0116 (2)0.0023 (2)0.0055 (2)0.0018 (2)
Se60.0122 (2)0.0107 (3)0.0125 (2)0.0007 (2)0.0064 (2)0.00234 (19)
Se70.0122 (2)0.0106 (3)0.0113 (2)0.0013 (2)0.0052 (2)0.00255 (19)
Se80.0165 (4)0.0106 (4)0.0110 (3)00.0071 (3)0
Se90.0121 (4)0.0113 (4)0.0169 (4)00.0083 (3)0
Se100.0119 (4)0.0101 (4)0.0121 (3)00.0029 (3)0
Se110.0167 (3)0.0081 (2)0.0147 (2)0.0012 (2)0.0076 (2)0.0001 (2)
Cr10.0187 (12)0.0126 (11)0.0185 (11)00.0125 (10)0
Cr20.0082 (18)0.010 (2)0.0138 (19)00.0042 (16)0
Cr30.013 (5)0.003 (4)0.013 (5)00.006 (4)0
Cr40.042 (3)0.042 (3)0.0169 (19)0.030 (2)0.0164 (19)0.0122 (17)
Geometric parameters (Å, º) top
Tl1—Se1i3.6290 (11)Mo5—Se102.6808 (5)
Tl1—Se2ii3.4600 (11)Mo5—Se112.5421 (7)
Tl1—Se33.7414 (8)Mo6—Mo73.8222 (9)
Tl1—Se53.2114 (11)Mo6—Mo82.7491 (7)
Tl1—Se6ii3.1803 (7)Mo6—Mo92.7032 (5)
Tl1—Se7iii3.1152 (11)Mo6—Se3vii2.6742 (9)
Tl1—Se84.1426 (13)Mo6—Se62.6536 (7)
Tl1—Se9iii4.2214 (9)Mo6—Se72.5952 (6)
Tl1—Se10ii4.1250 (12)Mo6—Se92.7001 (8)
Tl1—Se11iv3.2515 (11)Mo6—Se112.5511 (8)
Mo1—Mo1v3.8353 (6)Mo7—Mo82.7127 (10)
Mo1—Mo22.6769 (8)Mo7—Mo92.6851 (13)
Mo1—Mo2v2.7252 (7)Mo7—Se52.5885 (8)
Mo1—Mo32.6992 (6)Mo7—Se5viii2.5885 (8)
Mo1—Mo3v2.7098 (8)Mo7—Se82.6093 (9)
Mo1—Mo53.4409 (8)Mo7—Se102.5939 (10)
Mo1—Se1v2.5771 (8)Mo8—Mo92.6863 (9)
Mo1—Se22.6214 (10)Mo8—Se72.5594 (6)
Mo1—Se32.5704 (10)Mo8—Se7viii2.5594 (6)
Mo1—Se42.5575 (7)Mo8—Se82.5981 (15)
Mo1—Se52.6610 (6)Mo8—Se92.6152 (15)
Mo2—Mo2v3.8047 (9)Mo9—Se62.5775 (8)
Mo2—Mo32.6967 (9)Mo9—Se6viii2.5775 (8)
Mo2—Mo3v2.6906 (8)Mo9—Se92.6073 (11)
Mo2—Mo6iii3.4797 (8)Mo9—Se102.6096 (11)
Mo2—Se12.5574 (7)Cr1—Se4i2.515 (2)
Mo2—Se2v2.5654 (9)Cr1—Se4ix2.515 (2)
Mo2—Se32.6055 (6)Cr1—Se6ii2.750 (2)
Mo2—Se42.5760 (9)Cr1—Se6x2.750 (2)
Mo2—Se6iii2.6456 (9)Cr1—Se82.850 (3)
Mo3—Mo3v3.8142 (8)Cr1—Se9ii2.821 (3)
Mo3—Mo4vi3.5231 (6)Cr2—Se42.524 (3)
Mo3—Se12.6149 (8)Cr2—Se4viii2.524 (3)
Mo3—Se22.5821 (8)Cr2—Se52.798 (2)
Mo3—Se3v2.5555 (8)Cr2—Se5viii2.798 (2)
Mo3—Se42.5436 (9)Cr2—Se9iii2.788 (6)
Mo3—Se7vi2.6346 (9)Cr2—Se102.738 (6)
Mo4—Mo52.6441 (6)Cr3—Se42.501 (8)
Mo4—Mo62.6278 (9)Cr3—Se4viii2.501 (8)
Mo4—Mo72.7347 (5)Cr3—Se7vi2.782 (7)
Mo4—Mo82.6931 (7)Cr3—Se7xi2.782 (7)
Mo4—Se1i2.6523 (9)Cr3—Se8vi2.859 (8)
Mo4—Se52.6306 (8)Cr3—Se102.886 (8)
Mo4—Se72.6382 (8)Cr4—Se12.3096 (6)
Mo4—Se82.6873 (7)Cr4—Se1xii2.3096 (6)
Mo4—Se112.5507 (8)Cr4—Se5vi2.9635 (6)
Mo5—Mo62.6431 (8)Cr4—Se5v2.9635 (6)
Mo5—Mo72.7095 (6)Cr4—Se11vi2.7815 (8)
Mo5—Mo83.8244 (6)Cr4—Se11v2.7815 (8)
Mo5—Mo92.7300 (7)Cr1—Cr2i3.231 (5)
Mo5—Se22.6890 (6)Cr1—Cr3i3.216 (12)
Mo5—Se52.6337 (10)Cr2—Cr33.295 (10)
Mo5—Se62.6285 (11)
Tl1viii—Tl1—Mo5ii91.77 (2)Mo1—Mo5—Se6133.63 (2)
Tl1viii—Tl1—Se1i117.00 (3)Mo1—Mo5—Se1092.06 (3)
Tl1viii—Tl1—Se2ii119.25 (3)Mo1—Mo5—Se1190.81 (3)
Tl1viii—Tl1—Se3117.92 (2)Mo1—Mo5—Cr260.77 (4)
Tl1viii—Tl1—Se590.55 (3)Mo4—Mo5—Mo5viii89.86 (2)
Tl1viii—Tl1—Se6ii89.68 (2)Mo4—Mo5—Mo659.61 (2)
Tl1viii—Tl1—Se7iii90.03 (3)Mo4—Mo5—Mo761.43 (2)
Tl1viii—Tl1—Se859.49 (2)Mo4—Mo5—Mo844.748 (18)
Tl1viii—Tl1—Se9iii60.122 (15)Mo4—Mo5—Mo989.36 (2)
Tl1viii—Tl1—Se10ii59.349 (19)Mo4—Mo5—Se1v83.68 (2)
Tl1viii—Tl1—Se11iv176.25 (4)Mo4—Mo5—Se2139.61 (3)
Tl1viii—Tl1—Cr3ii61.60 (7)Mo4—Mo5—Se4117.94 (3)
Mo5ii—Tl1—Se1i92.022 (19)Mo4—Mo5—Se559.79 (2)
Mo5ii—Tl1—Se2ii36.933 (14)Mo4—Mo5—Se6119.92 (3)
Mo5ii—Tl1—Se3137.67 (3)Mo4—Mo5—Se10118.89 (3)
Mo5ii—Tl1—Se5154.62 (3)Mo4—Mo5—Se1158.88 (2)
Mo5ii—Tl1—Se6ii35.347 (19)Mo4—Mo5—Cr293.22 (6)
Mo5ii—Tl1—Se7iii89.30 (3)Mo5viii—Mo5—Mo690.22 (2)
Mo5ii—Tl1—Se8102.29 (2)Mo5viii—Mo5—Mo734.209 (19)
Mo5ii—Tl1—Se9iii132.41 (3)Mo5viii—Mo5—Mo854.133 (10)
Mo5ii—Tl1—Se10ii36.058 (12)Mo5viii—Mo5—Mo934.83 (2)
Mo5ii—Tl1—Se11iv91.38 (2)Mo5viii—Mo5—Se1v147.60 (2)
Mo5ii—Tl1—Cr3ii66.49 (10)Mo5viii—Mo5—Se2125.27 (2)
Se1i—Tl1—Se2ii98.98 (3)Mo5viii—Mo5—Se482.463 (14)
Se1i—Tl1—Se399.20 (3)Mo5viii—Mo5—Se587.68 (2)
Se1i—Tl1—Se564.61 (2)Mo5viii—Mo5—Se686.61 (2)
Se1i—Tl1—Se6ii61.89 (2)Mo5viii—Mo5—Se1033.294 (15)
Se1i—Tl1—Se7iii152.87 (4)Mo5viii—Mo5—Se11143.51 (2)
Se1i—Tl1—Se858.31 (2)Mo5viii—Mo5—Cr255.13 (5)
Se1i—Tl1—Se9iii133.99 (3)Mo6—Mo5—Mo791.14 (3)
Se1i—Tl1—Se10ii119.37 (2)Mo6—Mo5—Mo845.955 (19)
Se1i—Tl1—Se11iv60.83 (2)Mo6—Mo5—Mo960.39 (2)
Se1i—Tl1—Cr3ii157.97 (10)Mo6—Mo5—Se1v113.08 (2)
Se2ii—Tl1—Se3100.79 (3)Mo6—Mo5—Se2129.73 (3)
Se2ii—Tl1—Se5150.19 (4)Mo6—Mo5—Se4172.37 (3)
Se2ii—Tl1—Se6ii65.33 (2)Mo6—Mo5—Se5119.36 (3)
Se2ii—Tl1—Se7iii66.97 (3)Mo6—Mo5—Se660.45 (2)
Se2ii—Tl1—Se8136.28 (2)Mo6—Mo5—Se10118.05 (3)
Se2ii—Tl1—Se9iii123.10 (3)Mo6—Mo5—Se1158.91 (2)
Se2ii—Tl1—Se10ii60.563 (19)Mo6—Mo5—Cr2137.49 (5)
Se2ii—Tl1—Se11iv64.47 (3)Mo7—Mo5—Mo845.19 (2)
Se3—Tl1—Se560.67 (2)Mo7—Mo5—Mo959.16 (3)
Se3—Tl1—Se6ii152.15 (3)Mo7—Mo5—Se1v119.23 (3)
Se3—Tl1—Se7iii63.16 (2)Mo7—Mo5—Se2138.66 (3)
Se3—Tl1—Se8118.37 (3)Mo7—Mo5—Se481.60 (2)
Se3—Tl1—Se9iii58.448 (15)Mo7—Mo5—Se557.93 (3)
Se3—Tl1—Se10ii138.37 (3)Mo7—Mo5—Se6116.55 (3)
Se3—Tl1—Se11iv60.51 (2)Mo7—Mo5—Se1057.52 (2)
Se3—Tl1—Cr3ii100.20 (9)Mo7—Mo5—Se11120.31 (3)
Se5—Tl1—Se6ii119.44 (3)Mo7—Mo5—Cr246.38 (5)
Se5—Tl1—Se7iii115.98 (2)Mo8—Mo5—Mo944.619 (19)
Se5—Tl1—Se857.89 (2)Mo8—Mo5—Se1v128.393 (19)
Se5—Tl1—Se9iii69.44 (2)Mo8—Mo5—Se2173.78 (4)
Se5—Tl1—Se10ii148.79 (3)Mo8—Mo5—Se4126.77 (2)
Se5—Tl1—Se11iv85.73 (3)Mo8—Mo5—Se587.64 (2)
Se5—Tl1—Cr3ii135.24 (10)Mo8—Mo5—Se688.81 (2)
Se6ii—Tl1—Se7iii124.59 (4)Mo8—Mo5—Se1087.42 (2)
Se6ii—Tl1—Se870.95 (2)Mo8—Mo5—Se1189.373 (18)
Se6ii—Tl1—Se9iii149.40 (3)Mo8—Mo5—Cr291.56 (4)
Se6ii—Tl1—Se10ii57.72 (2)Mo9—Mo5—Se1v172.42 (2)
Se6ii—Tl1—Se11iv91.71 (2)Mo9—Mo5—Se2130.61 (3)
Se6ii—Tl1—Cr3ii96.21 (10)Mo9—Mo5—Se4113.30 (2)
Se7iii—Tl1—Se8147.28 (3)Mo9—Mo5—Se5117.08 (3)
Se7iii—Tl1—Se9iii56.32 (2)Mo9—Mo5—Se657.47 (3)
Se7iii—Tl1—Se10ii75.21 (3)Mo9—Mo5—Se1057.66 (3)
Se7iii—Tl1—Se11iv92.05 (3)Mo9—Mo5—Se11119.27 (3)
Se7iii—Tl1—Cr3ii38.64 (8)Mo9—Mo5—Cr289.93 (5)
Se8—Tl1—Se9iii95.12 (2)Se1v—Mo5—Se256.06 (2)
Se8—Tl1—Se10ii96.30 (2)Se1v—Mo5—Se472.880 (16)
Se8—Tl1—Se11iv117.77 (3)Se1v—Mo5—Se561.67 (2)
Se8—Tl1—Cr3ii119.42 (7)Se1v—Mo5—Se6123.98 (3)
Se9iii—Tl1—Se10ii98.72 (2)Se1v—Mo5—Se10128.71 (3)
Se9iii—Tl1—Se11iv118.74 (2)Se1v—Mo5—Se1154.23 (2)
Se9iii—Tl1—Cr3ii66.35 (10)Se1v—Mo5—Cr293.45 (5)
Se10ii—Tl1—Se11iv124.24 (3)Se2—Mo5—Se457.27 (2)
Se10ii—Tl1—Cr3ii39.27 (9)Se2—Mo5—Se598.56 (3)
Se11iv—Tl1—Cr3ii121.66 (8)Se2—Mo5—Se684.96 (3)
Mo1v—Mo1—Mo245.275 (18)Se2—Mo5—Se1092.15 (2)
Mo1v—Mo1—Mo2v44.261 (16)Se2—Mo5—Se1190.96 (2)
Mo1v—Mo1—Mo344.952 (17)Se2—Mo5—Cr292.46 (5)
Mo1v—Mo1—Mo3v44.727 (16)Se4—Mo5—Se558.433 (19)
Mo1v—Mo1—Mo5137.38 (2)Se4—Mo5—Se6120.90 (2)
Mo1v—Mo1—Se1v87.62 (2)Se4—Mo5—Se1055.84 (2)
Mo1v—Mo1—Se286.90 (2)Se4—Mo5—Se11127.07 (3)
Mo1v—Mo1—Se388.39 (2)Se4—Mo5—Cr235.23 (4)
Mo1v—Mo1—Se487.991 (19)Se5—Mo5—Se6174.28 (3)
Mo1v—Mo1—Se5173.30 (3)Se5—Mo5—Se1089.33 (3)
Mo1v—Mo1—Se10126.106 (19)Se5—Mo5—Se1191.30 (3)
Mo1v—Mo1—Se11127.06 (2)Se5—Mo5—Cr245.50 (7)
Mo1v—Mo1—Cr2129.62 (6)Se6—Mo5—Se1086.03 (3)
Mo2—Mo1—Mo2v89.54 (2)Se6—Mo5—Se1193.15 (3)
Mo2—Mo1—Mo360.22 (2)Se6—Mo5—Cr2130.18 (7)
Mo2—Mo1—Mo3v59.92 (2)Se10—Mo5—Se11176.71 (3)
Mo2—Mo1—Mo5149.43 (3)Se10—Mo5—Cr244.27 (7)
Mo2—Mo1—Se1v119.09 (3)Se11—Mo5—Cr2136.67 (7)
Mo2—Mo1—Se2118.20 (3)Mo2vii—Mo6—Mo4149.08 (3)
Mo2—Mo1—Se359.50 (2)Mo2vii—Mo6—Mo599.47 (2)
Mo2—Mo1—Se458.91 (2)Mo2vii—Mo6—Mo7135.891 (18)
Mo2—Mo1—Se5128.83 (3)Mo2vii—Mo6—Mo8148.83 (3)
Mo2—Mo1—Se10112.71 (2)Mo2vii—Mo6—Mo9100.08 (3)
Mo2—Mo1—Se11171.97 (2)Mo2vii—Mo6—Se2xiv35.923 (16)
Mo2—Mo1—Cr291.24 (7)Mo2vii—Mo6—Se3vii47.924 (18)
Mo2v—Mo1—Mo359.46 (2)Mo2vii—Mo6—Se4vii35.964 (14)
Mo2v—Mo1—Mo3v59.50 (2)Mo2vii—Mo6—Se648.86 (2)
Mo2v—Mo1—Mo5100.95 (3)Mo2vii—Mo6—Se7134.82 (3)
Mo2v—Mo1—Se1v57.58 (2)Mo2vii—Mo6—Se992.43 (3)
Mo2v—Mo1—Se257.31 (2)Mo2vii—Mo6—Se1190.96 (3)
Mo2v—Mo1—Se3117.31 (3)Mo2vii—Mo6—Cr1xiii59.92 (3)
Mo2v—Mo1—Se4117.26 (3)Mo4—Mo6—Mo560.21 (2)
Mo2v—Mo1—Se5141.44 (3)Mo4—Mo6—Mo745.674 (19)
Mo2v—Mo1—Se10116.75 (3)Mo4—Mo6—Mo860.07 (3)
Mo2v—Mo1—Se1182.85 (2)Mo4—Mo6—Mo990.28 (3)
Mo2v—Mo1—Cr2151.18 (8)Mo4—Mo6—Se2xiv113.78 (2)
Mo3—Mo1—Mo3v89.68 (2)Mo4—Mo6—Se3vii130.96 (3)
Mo3—Mo1—Mo5100.63 (3)Mo4—Mo6—Se4vii171.32 (2)
Mo3—Mo1—Se1v117.04 (3)Mo4—Mo6—Se6119.58 (3)
Mo3—Mo1—Se258.03 (2)Mo4—Mo6—Se760.68 (3)
Mo3—Mo1—Se3119.65 (3)Mo4—Mo6—Se9117.42 (3)
Mo3—Mo1—Se457.80 (2)Mo4—Mo6—Se1158.98 (3)
Mo3—Mo1—Se5138.07 (3)Mo4—Mo6—Cr1xiii136.86 (4)
Mo3—Mo1—Se1081.20 (2)Mo5—Mo6—Mo745.129 (18)
Mo3—Mo1—Se11117.15 (3)Mo5—Mo6—Mo890.33 (3)
Mo3—Mo1—Cr296.43 (6)Mo5—Mo6—Mo961.40 (2)
Mo3v—Mo1—Mo5149.06 (3)Mo5—Mo6—Se2xiv81.09 (2)
Mo3v—Mo1—Se1v59.22 (2)Mo5—Mo6—Se3vii136.78 (3)
Mo3v—Mo1—Se2116.80 (3)Mo5—Mo6—Se4vii115.94 (2)
Mo3v—Mo1—Se357.82 (3)Mo5—Mo6—Se659.50 (2)
Mo3v—Mo1—Se4118.76 (3)Mo5—Mo6—Se7120.79 (4)
Mo3v—Mo1—Se5131.66 (3)Mo5—Mo6—Se9119.08 (3)
Mo3v—Mo1—Se10170.56 (2)Mo5—Mo6—Se1158.57 (2)
Mo3v—Mo1—Se11113.48 (2)Mo5—Mo6—Cr1xiii92.12 (4)
Mo3v—Mo1—Cr2142.28 (9)Mo7—Mo6—Mo845.21 (2)
Mo5—Mo1—Se1v90.36 (3)Mo7—Mo6—Mo944.63 (3)
Mo5—Mo1—Se250.475 (19)Mo7—Mo6—Se2xiv126.214 (17)
Mo5—Mo1—Se3134.20 (2)Mo7—Mo6—Se3vii176.09 (3)
Mo5—Mo1—Se491.03 (3)Mo7—Mo6—Se4vii125.787 (19)
Mo5—Mo1—Se549.12 (2)Mo7—Mo6—Se687.07 (2)
Mo5—Mo1—Se1037.139 (15)Mo7—Mo6—Se789.18 (3)
Mo5—Mo1—Se1136.167 (13)Mo7—Mo6—Se987.44 (3)
Mo5—Mo1—Cr265.95 (8)Mo7—Mo6—Se1188.92 (3)
Se1v—Mo1—Se287.30 (3)Mo7—Mo6—Cr1xiii91.20 (4)
Se1v—Mo1—Se389.86 (3)Mo8—Mo6—Mo959.03 (2)
Se1v—Mo1—Se4174.83 (3)Mo8—Mo6—Se2xiv171.32 (3)
Se1v—Mo1—Se594.30 (2)Mo8—Mo6—Se3vii132.62 (3)
Se1v—Mo1—Se10127.45 (3)Mo8—Mo6—Se4vii113.51 (3)
Se1v—Mo1—Se1154.31 (2)Mo8—Mo6—Se6116.54 (3)
Se1v—Mo1—Cr2142.52 (6)Mo8—Mo6—Se757.13 (2)
Se2—Mo1—Se3174.60 (3)Mo8—Mo6—Se957.35 (3)
Se2—Mo1—Se489.75 (3)Mo8—Mo6—Se11119.04 (4)
Se2—Mo1—Se599.59 (3)Mo8—Mo6—Cr1xiii90.41 (3)
Se2—Mo1—Se1060.08 (2)Mo9—Mo6—Se2xiv116.89 (2)
Se2—Mo1—Se1159.380 (19)Mo9—Mo6—Se3vii138.58 (4)
Se2—Mo1—Cr297.60 (9)Mo9—Mo6—Se4vii81.16 (3)
Se3—Mo1—Se492.74 (3)Mo9—Mo6—Se657.51 (2)
Se3—Mo1—Se585.20 (3)Mo9—Mo6—Se7116.10 (3)
Se3—Mo1—Se10125.13 (3)Mo9—Mo6—Se957.70 (3)
Se3—Mo1—Se11122.13 (2)Mo9—Mo6—Se11119.94 (3)
Se3—Mo1—Cr287.45 (9)Mo9—Mo6—Cr1xiii46.58 (4)
Se4—Mo1—Se590.37 (3)Se2xiv—Mo6—Se3vii55.839 (19)
Se4—Mo1—Se1053.92 (2)Se2xiv—Mo6—Se4vii71.876 (17)
Se4—Mo1—Se11127.19 (3)Se2xiv—Mo6—Se659.935 (18)
Se4—Mo1—Cr242.18 (6)Se2xiv—Mo6—Se7126.71 (2)
Se5—Mo1—Se1057.14 (2)Se2xiv—Mo6—Se9128.35 (3)
Se5—Mo1—Se1158.64 (2)Se2xiv—Mo6—Se1155.06 (2)
Se5—Mo1—Cr248.22 (6)Se2xiv—Mo6—Cr1xiii91.16 (3)
Se10—Mo1—Se1173.298 (16)Se3vii—Mo6—Se4vii57.50 (2)
Se10—Mo1—Cr237.93 (9)Se3vii—Mo6—Se696.77 (3)
Se11—Mo1—Cr296.66 (7)Se3vii—Mo6—Se787.08 (3)
Mo1—Mo2—Mo1v90.46 (3)Se3vii—Mo6—Se993.36 (3)
Mo1—Mo2—Mo2v45.747 (18)Se3vii—Mo6—Se1190.19 (3)
Mo1—Mo2—Mo360.30 (2)Se3vii—Mo6—Cr1xiii92.08 (5)
Mo1—Mo2—Mo3v60.65 (2)Se4vii—Mo6—Se656.61 (2)
Mo1—Mo2—Mo6iii99.43 (2)Se4vii—Mo6—Se7122.03 (3)
Mo1—Mo2—Se1119.91 (4)Se4vii—Mo6—Se956.48 (3)
Mo1—Mo2—Se2v119.43 (3)Se4vii—Mo6—Se11126.93 (3)
Mo1—Mo2—Se358.21 (3)Se4vii—Mo6—Cr1xiii34.59 (4)
Mo1—Mo2—Se458.23 (2)Se6—Mo6—Se7173.19 (3)
Mo1—Mo2—Se6iii136.31 (3)Se6—Mo6—Se988.60 (3)
Mo1—Mo2—Se9iii80.35 (2)Se6—Mo6—Se1192.34 (2)
Mo1—Mo2—Se11iii116.07 (2)Se6—Mo6—Cr1xiii43.74 (3)
Mo1—Mo2—Cr1vi96.27 (5)Se7—Mo6—Se985.56 (3)
Mo1v—Mo2—Mo2v44.717 (16)Se7—Mo6—Se1193.27 (3)
Mo1v—Mo2—Mo359.97 (2)Se7—Mo6—Cr1xiii130.76 (4)
Mo1v—Mo2—Mo3v59.79 (2)Se9—Mo6—Se11176.20 (4)
Mo1v—Mo2—Mo6iii149.86 (3)Se9—Mo6—Cr1xiii45.30 (3)
Mo1v—Mo2—Se158.30 (2)Se11—Mo6—Cr1xiii135.97 (3)
Mo1v—Mo2—Se2v59.31 (3)Mo4—Mo7—Mo4viii109.57 (3)
Mo1v—Mo2—Se3117.45 (3)Mo4—Mo7—Mo558.105 (17)
Mo1v—Mo2—Se4117.59 (4)Mo4—Mo7—Mo5viii145.38 (4)
Mo1v—Mo2—Se6iii132.50 (2)Mo4—Mo7—Mo643.42 (2)
Mo1v—Mo2—Se9iii170.31 (3)Mo4—Mo7—Mo6viii103.64 (3)
Mo1v—Mo2—Se11iii114.53 (2)Mo4—Mo7—Mo859.254 (19)
Mo1v—Mo2—Cr1vi140.94 (5)Mo4—Mo7—Mo988.41 (3)
Mo2v—Mo2—Mo345.001 (18)Mo4—Mo7—Se559.15 (2)
Mo2v—Mo2—Mo3v45.14 (2)Mo4—Mo7—Se5viii146.56 (4)
Mo2v—Mo2—Mo6iii137.287 (17)Mo4—Mo7—Se860.324 (18)
Mo2v—Mo2—Se188.54 (3)Mo4—Mo7—Se10118.73 (2)
Mo2v—Mo2—Se2v88.87 (3)Mo4—Mo7—Cr2120.97 (4)
Mo2v—Mo2—Se387.68 (2)Mo4viii—Mo7—Mo5145.38 (4)
Mo2v—Mo2—Se487.78 (3)Mo4viii—Mo7—Mo5viii58.105 (17)
Mo2v—Mo2—Se6iii173.07 (3)Mo4viii—Mo7—Mo6103.64 (3)
Mo2v—Mo2—Se9iii126.026 (19)Mo4viii—Mo7—Mo6viii43.42 (2)
Mo2v—Mo2—Se11iii127.343 (19)Mo4viii—Mo7—Mo859.254 (19)
Mo2v—Mo2—Cr1vi129.28 (6)Mo4viii—Mo7—Mo988.41 (3)
Mo3—Mo2—Mo3v90.14 (3)Mo4viii—Mo7—Se5146.56 (4)
Mo3—Mo2—Mo6iii148.44 (2)Mo4viii—Mo7—Se5viii59.15 (2)
Mo3—Mo2—Se159.63 (3)Mo4viii—Mo7—Se860.324 (18)
Mo3—Mo2—Se2v119.28 (3)Mo4viii—Mo7—Se10118.73 (2)
Mo3—Mo2—Se3118.44 (3)Mo4viii—Mo7—Cr2120.97 (4)
Mo3—Mo2—Se457.63 (3)Mo5—Mo7—Mo5viii111.58 (4)
Mo3—Mo2—Se6iii128.47 (3)Mo5—Mo7—Mo643.734 (18)
Mo3—Mo2—Se9iii112.06 (2)Mo5—Mo7—Mo6viii104.56 (3)
Mo3—Mo2—Se11iii172.27 (2)Mo5—Mo7—Mo889.70 (3)
Mo3—Mo2—Cr1vi90.48 (6)Mo5—Mo7—Mo960.80 (2)
Mo3v—Mo2—Mo6iii100.66 (2)Mo5—Mo7—Se559.57 (2)
Mo3v—Mo2—Se1118.09 (3)Mo5—Mo7—Se5viii149.00 (3)
Mo3v—Mo2—Se2v58.79 (2)Mo5—Mo7—Se8118.430 (19)
Mo3v—Mo2—Se357.68 (2)Mo5—Mo7—Se1060.683 (19)
Mo3v—Mo2—Se4118.82 (3)Mo5—Mo7—Cr289.89 (6)
Mo3v—Mo2—Se6iii141.28 (4)Mo5viii—Mo7—Mo6104.56 (3)
Mo3v—Mo2—Se9iii117.080 (19)Mo5viii—Mo7—Mo6viii43.734 (18)
Mo3v—Mo2—Se11iii82.21 (2)Mo5viii—Mo7—Mo889.70 (3)
Mo3v—Mo2—Cr1vi152.49 (4)Mo5viii—Mo7—Mo960.80 (2)
Mo6iii—Mo2—Se1134.17 (3)Mo5viii—Mo7—Se5149.00 (3)
Mo6iii—Mo2—Se2v91.34 (3)Mo5viii—Mo7—Se5viii59.57 (2)
Mo6iii—Mo2—Se349.63 (2)Mo5viii—Mo7—Se8118.430 (19)
Mo6iii—Mo2—Se491.54 (3)Mo5viii—Mo7—Se1060.683 (19)
Mo6iii—Mo2—Se6iii49.051 (19)Mo5viii—Mo7—Cr289.89 (6)
Mo6iii—Mo2—Se9iii36.891 (18)Mo6—Mo7—Mo6viii72.15 (2)
Mo6iii—Mo2—Se11iii35.909 (14)Mo6—Mo7—Mo845.974 (18)
Mo6iii—Mo2—Cr1vi66.50 (5)Mo6—Mo7—Mo945.004 (17)
Se1—Mo2—Se2v88.94 (3)Mo6—Mo7—Se588.37 (2)
Se1—Mo2—Se3175.72 (4)Mo6—Mo7—Se5viii160.48 (3)
Se1—Mo2—Se490.36 (3)Mo6—Mo7—Se889.27 (3)
Se1—Mo2—Se6iii85.21 (3)Mo6—Mo7—Se1088.55 (3)
Se1—Mo2—Se9iii124.03 (3)Mo6—Mo7—Cr2133.61 (6)
Se1—Mo2—Se11iii123.33 (3)Mo6viii—Mo7—Mo845.974 (18)
Se1—Mo2—Cr1vi85.53 (4)Mo6viii—Mo7—Mo945.004 (17)
Se2v—Mo2—Se388.98 (3)Mo6viii—Mo7—Se5160.48 (3)
Se2v—Mo2—Se4176.59 (4)Mo6viii—Mo7—Se5viii88.37 (2)
Se2v—Mo2—Se6iii94.00 (3)Mo6viii—Mo7—Se889.27 (3)
Se2v—Mo2—Se9iii128.23 (3)Mo6viii—Mo7—Se1088.55 (3)
Se2v—Mo2—Se11iii55.46 (2)Mo6viii—Mo7—Cr2133.61 (6)
Se2v—Mo2—Cr1vi141.16 (6)Mo8—Mo7—Mo959.68 (3)
Se3—Mo2—Se491.50 (3)Mo8—Mo7—Se5118.37 (2)
Se3—Mo2—Se6iii98.67 (3)Mo8—Mo7—Se5viii118.37 (2)
Se3—Mo2—Se9iii60.04 (2)Mo8—Mo7—Se858.40 (3)
Se3—Mo2—Se11iii58.03 (2)Mo8—Mo7—Se10118.90 (5)
Se3—Mo2—Cr1vi98.42 (4)Mo8—Mo7—Cr2179.28 (12)
Se4—Mo2—Se6iii89.26 (3)Mo9—Mo7—Se5120.35 (3)
Se4—Mo2—Se9iii54.66 (3)Mo9—Mo7—Se5viii120.35 (3)
Se4—Mo2—Se11iii127.44 (3)Mo9—Mo7—Se8118.08 (4)
Se4—Mo2—Cr1vi42.05 (5)Mo9—Mo7—Se1059.22 (3)
Se6iii—Mo2—Se9iii56.240 (19)Mo9—Mo7—Cr2119.60 (11)
Se6iii—Mo2—Se11iii59.12 (2)Se5—Mo7—Se5viii111.07 (4)
Se6iii—Mo2—Cr1vi47.25 (5)Se5—Mo7—Se889.26 (3)
Se9iii—Mo2—Se11iii72.790 (19)Se5—Mo7—Se1092.27 (2)
Se9iii—Mo2—Cr1vi38.72 (4)Se5—Mo7—Cr261.89 (4)
Se11iii—Mo2—Cr1vi96.82 (6)Se5viii—Mo7—Se889.26 (3)
Mo1—Mo3—Mo1v90.32 (2)Se5viii—Mo7—Se1092.27 (2)
Mo1—Mo3—Mo259.48 (2)Se5viii—Mo7—Cr261.89 (4)
Mo1—Mo3—Mo2v60.75 (2)Se8—Mo7—Se10177.30 (6)
Mo1—Mo3—Mo3v45.275 (17)Se8—Mo7—Cr2122.33 (12)
Mo1—Mo3—Mo4vi148.87 (3)Se10—Mo7—Cr260.37 (11)
Mo1—Mo3—Se1116.99 (3)Mo4—Mo8—Mo4viii112.12 (4)
Mo1—Mo3—Se259.48 (2)Mo4—Mo8—Mo543.716 (16)
Mo1—Mo3—Se3v120.23 (3)Mo4—Mo8—Mo5viii104.44 (2)
Mo1—Mo3—Se458.31 (2)Mo4—Mo8—Mo657.73 (2)
Mo1—Mo3—Se7vi131.74 (3)Mo4—Mo8—Mo6viii145.55 (3)
Mo1—Mo3—Se11vi170.17 (3)Mo4—Mo8—Mo760.77 (2)
Mo1—Mo3—Cr391.94 (13)Mo4—Mo8—Mo989.25 (2)
Mo1v—Mo3—Mo260.53 (2)Mo4—Mo8—Se760.24 (2)
Mo1v—Mo3—Mo2v59.43 (2)Mo4—Mo8—Se7viii150.25 (4)
Mo1v—Mo3—Mo3v45.046 (16)Mo4—Mo8—Se861.01 (2)
Mo1v—Mo3—Mo4vi98.397 (19)Mo4—Mo8—Se9118.11 (2)
Mo1v—Mo3—Se157.86 (2)Mo4—Mo8—Cr3i91.55 (13)
Mo1v—Mo3—Se2117.63 (3)Mo4viii—Mo8—Mo5104.44 (2)
Mo1v—Mo3—Se3v58.35 (3)Mo4viii—Mo8—Mo5viii43.716 (16)
Mo1v—Mo3—Se4119.32 (4)Mo4viii—Mo8—Mo6145.55 (3)
Mo1v—Mo3—Se7vi137.88 (2)Mo4viii—Mo8—Mo6viii57.73 (2)
Mo1v—Mo3—Se11vi79.859 (17)Mo4viii—Mo8—Mo760.77 (2)
Mo1v—Mo3—Cr3151.56 (17)Mo4viii—Mo8—Mo989.25 (2)
Mo2—Mo3—Mo2v89.86 (3)Mo4viii—Mo8—Se7150.25 (4)
Mo2—Mo3—Mo3v44.858 (18)Mo4viii—Mo8—Se7viii60.24 (2)
Mo2—Mo3—Mo4vi99.24 (2)Mo4viii—Mo8—Se861.01 (2)
Mo2—Mo3—Se157.52 (2)Mo4viii—Mo8—Se9118.11 (2)
Mo2—Mo3—Se2118.91 (3)Mo4viii—Mo8—Cr3i91.55 (13)
Mo2—Mo3—Se3v118.88 (3)Mo5—Mo8—Mo5viii71.734 (16)
Mo2—Mo3—Se458.80 (3)Mo5—Mo8—Mo643.716 (16)
Mo2—Mo3—Se7vi136.72 (3)Mo5—Mo8—Mo6viii103.69 (2)
Mo2—Mo3—Se11vi114.88 (2)Mo5—Mo8—Mo745.110 (16)
Mo2—Mo3—Cr396.76 (18)Mo5—Mo8—Mo945.545 (17)
Mo2v—Mo3—Mo3v45.00 (2)Mo5—Mo8—Se788.733 (16)
Mo2v—Mo3—Mo4vi147.67 (2)Mo5—Mo8—Se7viii160.32 (2)
Mo2v—Mo3—Se1117.24 (3)Mo5—Mo8—Se888.57 (3)
Mo2v—Mo3—Se258.19 (2)Mo5—Mo8—Se989.27 (2)
Mo2v—Mo3—Se3v59.50 (2)Mo5—Mo8—Cr3i135.27 (13)
Mo2v—Mo3—Se4119.05 (3)Mo5viii—Mo8—Mo6103.69 (2)
Mo2v—Mo3—Se7vi133.27 (4)Mo5viii—Mo8—Mo6viii43.716 (16)
Mo2v—Mo3—Se11vi112.93 (2)Mo5viii—Mo8—Mo745.110 (16)
Mo2v—Mo3—Cr3143.30 (12)Mo5viii—Mo8—Mo945.545 (17)
Mo3v—Mo3—Mo4vi135.20 (2)Mo5viii—Mo8—Se7160.32 (2)
Mo3v—Mo3—Se186.74 (3)Mo5viii—Mo8—Se7viii88.733 (16)
Mo3v—Mo3—Se288.28 (2)Mo5viii—Mo8—Se888.57 (3)
Mo3v—Mo3—Se3v89.06 (2)Mo5viii—Mo8—Se989.27 (2)
Mo3v—Mo3—Se488.63 (3)Mo5viii—Mo8—Cr3i135.27 (13)
Mo3v—Mo3—Se7vi176.58 (2)Mo6—Mo8—Mo6viii109.92 (3)
Mo3v—Mo3—Se11vi124.904 (18)Mo6—Mo8—Mo788.82 (2)
Mo3v—Mo3—Cr3130.45 (16)Mo6—Mo8—Mo959.634 (18)
Mo4vi—Mo3—Se148.47 (2)Mo6—Mo8—Se758.402 (18)
Mo4vi—Mo3—Se2136.48 (3)Mo6—Mo8—Se7viii145.36 (5)
Mo4vi—Mo3—Se3v89.32 (2)Mo6—Mo8—Se8118.69 (3)
Mo4vi—Mo3—Se491.79 (2)Mo6—Mo8—Se960.38 (2)
Mo4vi—Mo3—Se7vi48.12 (2)Mo6—Mo8—Cr3i119.90 (8)
Mo4vi—Mo3—Se11vi35.473 (14)Mo6viii—Mo8—Mo788.82 (2)
Mo4vi—Mo3—Cr366.65 (11)Mo6viii—Mo8—Mo959.634 (18)
Se1—Mo3—Se2174.95 (4)Mo6viii—Mo8—Se7145.36 (5)
Se1—Mo3—Se3v89.35 (3)Mo6viii—Mo8—Se7viii58.402 (18)
Se1—Mo3—Se489.77 (3)Mo6viii—Mo8—Se8118.69 (3)
Se1—Mo3—Se7vi96.54 (3)Mo6viii—Mo8—Se960.38 (2)
Se1—Mo3—Se11vi57.81 (2)Mo6viii—Mo8—Cr3i119.90 (8)
Se1—Mo3—Cr396.33 (14)Mo7—Mo8—Mo959.64 (3)
Se2—Mo3—Se3v89.72 (3)Mo7—Mo8—Se7120.99 (3)
Se2—Mo3—Se490.96 (3)Mo7—Mo8—Se7viii120.99 (3)
Se2—Mo3—Se7vi88.44 (3)Mo7—Mo8—Se858.80 (3)
Se2—Mo3—Se11vi125.04 (3)Mo7—Mo8—Se9118.54 (3)
Se2—Mo3—Cr387.55 (14)Mo7—Mo8—Cr3i121.8 (2)
Se3v—Mo3—Se4177.57 (4)Mo9—Mo8—Se7117.97 (3)
Se3v—Mo3—Se7vi91.91 (3)Mo9—Mo8—Se7viii117.97 (3)
Se3v—Mo3—Se11vi53.860 (17)Mo9—Mo8—Se8118.44 (4)
Se3v—Mo3—Cr3140.24 (17)Mo9—Mo8—Se958.90 (3)
Se4—Mo3—Se7vi90.44 (3)Mo9—Mo8—Cr3i178.6 (2)
Se4—Mo3—Se11vi127.25 (2)Se7—Mo8—Se7viii110.65 (3)
Se4—Mo3—Cr342.14 (17)Se7—Mo8—Se893.43 (3)
Se7vi—Mo3—Se11vi58.057 (18)Se7—Mo8—Se988.08 (3)
Se7vi—Mo3—Cr348.38 (16)Se7—Mo8—Cr3i61.52 (8)
Se11vi—Mo3—Cr396.88 (12)Se7viii—Mo8—Se893.43 (3)
Mo3i—Mo4—Mo4viii114.406 (16)Se7viii—Mo8—Se988.08 (3)
Mo3i—Mo4—Mo5148.68 (3)Se7viii—Mo8—Cr3i61.52 (8)
Mo3i—Mo4—Mo698.70 (2)Se8—Mo8—Se9177.34 (3)
Mo3i—Mo4—Mo7148.58 (2)Se8—Mo8—Cr3i63.0 (2)
Mo3i—Mo4—Mo898.46 (2)Se9—Mo8—Cr3i119.7 (2)
Mo3i—Mo4—Mo9135.07 (2)Mo4—Mo9—Mo4viii72.49 (2)
Mo3i—Mo4—Se1i47.57 (2)Mo4—Mo9—Mo544.394 (16)
Mo3i—Mo4—Se3iv36.187 (14)Mo4—Mo9—Mo5viii104.84 (3)
Mo3i—Mo4—Se4i35.210 (14)Mo4—Mo9—Mo644.06 (2)
Mo3i—Mo4—Se5135.64 (3)Mo4—Mo9—Mo6viii105.42 (3)
Mo3i—Mo4—Se748.03 (2)Mo4—Mo9—Mo746.336 (17)
Mo3i—Mo4—Se892.18 (2)Mo4—Mo9—Mo845.449 (17)
Mo3i—Mo4—Se1191.24 (2)Mo4—Mo9—Se689.72 (2)
Mo3i—Mo4—Cr3i58.97 (6)Mo4—Mo9—Se6viii162.15 (3)
Mo4viii—Mo4—Mo590.14 (2)Mo4—Mo9—Se735.877 (14)
Mo4viii—Mo4—Mo690.36 (2)Mo4—Mo9—Se7viii75.124 (17)
Mo4viii—Mo4—Mo735.214 (14)Mo4—Mo9—Se988.99 (2)
Mo4viii—Mo4—Mo833.94 (2)Mo4—Mo9—Se1089.81 (3)
Mo4viii—Mo4—Mo953.754 (14)Mo4—Mo9—Cr1xiii134.51 (3)
Mo4viii—Mo4—Se1i124.87 (3)Mo4viii—Mo9—Mo5104.84 (3)
Mo4viii—Mo4—Se3iv144.936 (16)Mo4viii—Mo9—Mo5viii44.394 (16)
Mo4viii—Mo4—Se4i82.693 (13)Mo4viii—Mo9—Mo6105.42 (3)
Mo4viii—Mo4—Se587.81 (2)Mo4viii—Mo9—Mo6viii44.06 (2)
Mo4viii—Mo4—Se787.18 (2)Mo4viii—Mo9—Mo746.336 (17)
Mo4viii—Mo4—Se833.75 (2)Mo4viii—Mo9—Mo845.449 (17)
Mo4viii—Mo4—Se11143.49 (3)Mo4viii—Mo9—Se6162.15 (3)
Mo4viii—Mo4—Cr3i55.84 (6)Mo4viii—Mo9—Se6viii89.72 (2)
Mo5—Mo4—Mo660.18 (2)Mo4viii—Mo9—Se775.124 (17)
Mo5—Mo4—Mo760.47 (2)Mo4viii—Mo9—Se7viii35.877 (14)
Mo5—Mo4—Mo891.54 (3)Mo4viii—Mo9—Se988.99 (2)
Mo5—Mo4—Mo946.246 (18)Mo4viii—Mo9—Se1089.81 (3)
Mo5—Mo4—Se1i132.77 (3)Mo4viii—Mo9—Cr1xiii134.51 (3)
Mo5—Mo4—Se3iv113.21 (2)Mo5—Mo9—Mo5viii110.34 (4)
Mo5—Mo4—Se4i171.59 (3)Mo5—Mo9—Mo658.216 (17)
Mo5—Mo4—Se559.91 (2)Mo5—Mo9—Mo6viii147.16 (4)
Mo5—Mo4—Se7119.13 (3)Mo5—Mo9—Mo760.04 (2)
Mo5—Mo4—Se8117.99 (3)Mo5—Mo9—Mo889.84 (3)
Mo5—Mo4—Se1158.56 (2)Mo5—Mo9—Se659.29 (2)
Mo5—Mo4—Cr3i137.41 (12)Mo5—Mo9—Se6viii144.83 (3)
Mo6—Mo4—Mo790.90 (3)Mo5—Mo9—Se773.620 (16)
Mo6—Mo4—Mo862.20 (3)Mo5—Mo9—Se7viii119.11 (3)
Mo6—Mo4—Mo945.666 (19)Mo5—Mo9—Se9119.281 (18)
Mo6—Mo4—Se1i137.10 (3)Mo5—Mo9—Se1060.22 (2)
Mo6—Mo4—Se3iv80.26 (2)Mo5—Mo9—Cr1xiii119.47 (3)
Mo6—Mo4—Se4i115.25 (2)Mo5viii—Mo9—Mo6147.16 (4)
Mo6—Mo4—Se5120.05 (3)Mo5viii—Mo9—Mo6viii58.216 (17)
Mo6—Mo4—Se759.05 (2)Mo5viii—Mo9—Mo760.04 (2)
Mo6—Mo4—Se8119.89 (3)Mo5viii—Mo9—Mo889.84 (3)
Mo6—Mo4—Se1159.01 (3)Mo5viii—Mo9—Se6144.83 (3)
Mo6—Mo4—Cr3i92.23 (17)Mo5viii—Mo9—Se6viii59.29 (2)
Mo7—Mo4—Mo859.97 (2)Mo5viii—Mo9—Se7119.11 (3)
Mo7—Mo4—Mo945.26 (3)Mo5viii—Mo9—Se7viii73.620 (16)
Mo7—Mo4—Se1i131.92 (4)Mo5viii—Mo9—Se9119.281 (18)
Mo7—Mo4—Se3iv171.07 (3)Mo5viii—Mo9—Se1060.22 (2)
Mo7—Mo4—Se4i114.08 (2)Mo6—Mo9—Mo6viii112.74 (3)
Mo7—Mo4—Se557.65 (2)Mo6—Mo9—Mo790.37 (3)
Mo7—Mo4—Se7117.31 (3)Mo6—Mo9—Mo861.337 (18)
Mo7—Mo4—Se857.52 (2)Mo6—Mo9—Se660.276 (18)
Mo7—Mo4—Se11119.03 (3)Mo6—Mo9—Se6viii148.37 (5)
Mo7—Mo4—Cr3i91.00 (6)Mo6—Mo9—Se731.223 (16)
Mo8—Mo4—Mo945.297 (18)Mo6—Mo9—Se7viii85.664 (19)
Mo8—Mo4—Se1i135.49 (3)Mo6—Mo9—Se961.090 (19)
Mo8—Mo4—Se3iv115.92 (2)Mo6—Mo9—Se10118.44 (3)
Mo8—Mo4—Se4i80.07 (2)Mo6—Mo9—Cr1xiii90.45 (4)
Mo8—Mo4—Se5117.58 (3)Mo6viii—Mo9—Mo790.37 (3)
Mo8—Mo4—Se757.36 (2)Mo6viii—Mo9—Mo861.337 (18)
Mo8—Mo4—Se857.74 (3)Mo6viii—Mo9—Se6148.37 (5)
Mo8—Mo4—Se11121.20 (4)Mo6viii—Mo9—Se6viii60.276 (18)
Mo8—Mo4—Cr3i45.87 (12)Mo6viii—Mo9—Se785.664 (19)
Mo9—Mo4—Se1i177.05 (3)Mo6viii—Mo9—Se7viii31.223 (16)
Mo9—Mo4—Se3iv125.93 (2)Mo6viii—Mo9—Se961.090 (19)
Mo9—Mo4—Se4i125.362 (18)Mo6viii—Mo9—Se10118.44 (3)
Mo9—Mo4—Se589.23 (2)Mo6viii—Mo9—Cr1xiii90.45 (4)
Mo9—Mo4—Se787.04 (3)Mo7—Mo9—Mo860.68 (3)
Mo9—Mo4—Se887.49 (3)Mo7—Mo9—Se6119.24 (3)
Mo9—Mo4—Se1189.74 (2)Mo7—Mo9—Se6viii119.24 (3)
Mo9—Mo4—Cr3i91.16 (12)Mo7—Mo9—Se774.72 (2)
Se1i—Mo4—Se3iv56.86 (2)Mo7—Mo9—Se7viii74.72 (2)
Se1i—Mo4—Se4i55.580 (19)Mo7—Mo9—Se9119.87 (4)
Se1i—Mo4—Se588.09 (3)Mo7—Mo9—Se1058.64 (3)
Se1i—Mo4—Se795.56 (3)Mo7—Mo9—Cr1xiii178.51 (5)
Se1i—Mo4—Se891.13 (3)Mo8—Mo9—Se6121.613 (19)
Se1i—Mo4—Se1191.54 (3)Mo8—Mo9—Se6viii121.613 (19)
Se1i—Mo4—Cr3i89.74 (13)Mo8—Mo9—Se730.182 (12)
Se3iv—Mo4—Se4i71.382 (14)Mo8—Mo9—Se7viii30.182 (12)
Se3iv—Mo4—Se5126.12 (2)Mo8—Mo9—Se959.19 (3)
Se3iv—Mo4—Se758.974 (19)Mo8—Mo9—Se10119.31 (5)
Se3iv—Mo4—Se8128.36 (2)Mo8—Mo9—Cr1xiii120.81 (6)
Se3iv—Mo4—Se1155.062 (18)Se6—Mo9—Se6viii108.01 (4)
Se3iv—Mo4—Cr3i90.59 (7)Se6—Mo9—Se791.470 (17)
Se4i—Mo4—Se5123.84 (3)Se6—Mo9—Se7viii141.55 (3)
Se4i—Mo4—Se756.36 (2)Se6—Mo9—Se992.30 (3)
Se4i—Mo4—Se856.978 (18)Se6—Mo9—Se1088.58 (2)
Se4i—Mo4—Se11126.44 (2)Se6—Mo9—Cr1xiii60.21 (3)
Se4i—Mo4—Cr3i34.20 (12)Se6viii—Mo9—Se7141.55 (3)
Se5—Mo4—Se7174.90 (3)Se6viii—Mo9—Se7viii91.470 (17)
Se5—Mo4—Se886.72 (3)Se6viii—Mo9—Se992.30 (3)
Se5—Mo4—Se1191.18 (3)Se6viii—Mo9—Se1088.58 (2)
Se5—Mo4—Cr3i132.52 (13)Se6viii—Mo9—Cr1xiii60.21 (3)
Se7—Mo4—Se889.65 (3)Se7—Mo9—Se7viii55.825 (13)
Se7—Mo4—Se1192.27 (3)Se7—Mo9—Se953.11 (2)
Se7—Mo4—Cr3i44.19 (14)Se7—Mo9—Se10125.67 (3)
Se8—Mo4—Se11176.55 (3)Se7—Mo9—Cr1xiii106.58 (4)
Se8—Mo4—Cr3i45.90 (13)Se7viii—Mo9—Se953.11 (2)
Se11—Mo4—Cr3i136.29 (13)Se7viii—Mo9—Se10125.67 (3)
Tl1xiii—Mo5—Mo193.478 (18)Se7viii—Mo9—Cr1xiii106.58 (4)
Tl1xiii—Mo5—Mo4164.32 (3)Se9—Mo9—Se10178.51 (5)
Tl1xiii—Mo5—Mo5viii88.235 (18)Se9—Mo9—Cr1xiii61.62 (5)
Tl1xiii—Mo5—Mo6104.82 (3)Se10—Mo9—Cr1xiii119.88 (5)
Tl1xiii—Mo5—Mo7120.88 (2)Tl1vi—Se1—Mo1v136.86 (4)
Tl1xiii—Mo5—Mo8123.99 (2)Tl1vi—Se1—Mo2100.32 (3)
Tl1xiii—Mo5—Mo980.23 (2)Tl1vi—Se1—Mo3148.14 (3)
Tl1xiii—Mo5—Se1v105.936 (19)Tl1vi—Se1—Mo4vi90.53 (3)
Tl1xiii—Mo5—Se250.63 (2)Tl1vi—Se1—Mo5v87.06 (2)
Tl1xiii—Mo5—Se477.220 (17)Tl1vi—Se1—Se2v92.58 (3)
Tl1xiii—Mo5—Se5135.62 (2)Tl1vi—Se1—Se3v166.05 (2)
Tl1xiii—Mo5—Se644.427 (18)Tl1vi—Se1—Se4104.25 (3)
Tl1xiii—Mo5—Se1064.92 (3)Tl1vi—Se1—Se5vi52.18 (2)
Tl1xiii—Mo5—Se11116.50 (3)Tl1vi—Se1—Se5v113.85 (3)
Tl1xiii—Mo5—Cr298.43 (7)Tl1vi—Se1—Se6iii52.783 (19)
Mo1—Mo5—Mo4101.39 (3)Tl1vi—Se1—Se7vi124.40 (3)
Mo1—Mo5—Mo5viii115.36 (2)Tl1vi—Se1—Se8vi67.61 (3)
Mo1—Mo5—Mo6149.16 (3)Tl1vi—Se1—Se11vi111.15 (2)
Mo1—Mo5—Mo7100.62 (3)Tl1vi—Se1—Se11v54.25 (2)
Mo1—Mo5—Mo8137.45 (3)Tl1vi—Se1—Cr1vi69.41 (4)
Mo1—Mo5—Mo9148.99 (3)Mo1v—Se1—Mo264.12 (2)
Mo1—Mo5—Se1v36.704 (14)Mo1v—Se1—Mo362.92 (2)
Mo1—Mo5—Se248.76 (2)Mo1v—Se1—Mo4vi130.46 (4)
Mo1—Mo5—Se436.256 (13)Mo1v—Se1—Mo5v52.94 (2)
Mo1—Mo5—Se549.811 (19)
Symmetry codes: (i) x1, y, z1; (ii) x, y, z1; (iii) x+1, y, z; (iv) x1, y, z; (v) x, y, z+1; (vi) x+1, y, z+1; (vii) x1, y, z; (viii) x, y+1/2, z; (ix) x1, y+1/2, z1; (x) x, y+1/2, z1; (xi) x+1, y+1/2, z+1; (xii) x+1, y, z+2; (xiii) x, y, z+1; (xiv) x1, y, z+1.

Experimental details

Crystal data
Chemical formulaCr1.453Tl1.87Mo15Se19
Mr3396.7
Crystal system, space groupMonoclinic, P21/m
Temperature (K)293
a, b, c (Å)9.7347 (1), 19.2639 (3), 9.7987 (1)
β (°) 118.9305 (8)
V3)1608.22 (4)
Z2
Radiation typeMo Kα
µ (mm1)36.91
Crystal size (mm)0.10 × 0.05 × 0.04
Data collection
DiffractometerNonius KappaCCD area-detector
diffractometer
Absorption correctionAnalytical
(de Meulenaer & Tompa, 1965)
Tmin, Tmax0.097, 0.331
No. of measured, independent and
observed [I > 2σ(I)] reflections		36020, 10161, 6942
Rint0.087
(sin θ/λ)max1)0.904
Refinement
R[F2 > 2σ(F2)], wR(F2), S 0.049, 0.087, 1.49
No. of reflections10161
No. of parameters231
Δρmax, Δρmin (e Å3)4.01, 3.97

Computer programs: COLLECT (Nonius, 1998), EVALCCD (Duisenberg, 1998), SIR97 (Altomare et al., 1999), JANA2006 (Petříček et al., 2006), DIAMOND (Brandenburg, 2001).

Selected bond lengths (Å) top
Tl1—Se1i3.6290 (11)Mo5—Mo92.7300 (7)
Tl1—Se2ii3.4600 (11)Mo5—Se22.6890 (6)
Tl1—Se33.7414 (8)Mo5—Se52.6337 (10)
Tl1—Se53.2114 (11)Mo5—Se62.6285 (11)
Tl1—Se6ii3.1803 (7)Mo5—Se102.6808 (5)
Tl1—Se7iii3.1152 (11)Mo5—Se112.5421 (7)
Tl1—Se84.1426 (13)Mo6—Mo73.8222 (9)
Tl1—Se10ii4.1250 (12)Mo6—Mo82.7491 (7)
Tl1—Se11iv3.2515 (11)Mo6—Mo92.7032 (5)
Mo1—Mo1v3.8353 (6)Mo6—Se3vii2.6742 (9)
Mo1—Mo22.6769 (8)Mo6—Se62.6536 (7)
Mo1—Mo2v2.7252 (7)Mo6—Se72.5952 (6)
Mo1—Mo32.6992 (6)Mo6—Se92.7001 (8)
Mo1—Mo3v2.7098 (8)Mo6—Se112.5511 (8)
Mo1—Mo53.4409 (8)Mo7—Mo82.7127 (10)
Mo1—Se1v2.5771 (8)Mo7—Mo92.6851 (13)
Mo1—Se22.6214 (10)Mo7—Se52.5885 (8)
Mo1—Se32.5704 (10)Mo7—Se5viii2.5885 (8)
Mo1—Se42.5575 (7)Mo7—Se82.6093 (9)
Mo1—Se52.6610 (6)Mo7—Se102.5939 (10)
Mo2—Mo2v3.8047 (9)Mo8—Mo92.6863 (9)
Mo2—Mo32.6967 (9)Mo8—Se72.5594 (6)
Mo2—Mo3v2.6906 (8)Mo8—Se7viii2.5594 (6)
Mo2—Mo6iii3.4797 (8)Mo8—Se82.5981 (15)
Mo2—Se12.5574 (7)Mo8—Se92.6152 (15)
Mo2—Se2v2.5654 (9)Mo9—Se62.5775 (8)
Mo2—Se32.6055 (6)Mo9—Se6viii2.5775 (8)
Mo2—Se42.5760 (9)Mo9—Se92.6073 (11)
Mo2—Se6iii2.6456 (9)Mo9—Se102.6096 (11)
Mo3—Mo3v3.8142 (8)Cr1—Se4i2.515 (2)
Mo3—Mo4vi3.5231 (6)Cr1—Se6ii2.750 (2)
Mo3—Se12.6149 (8)Cr1—Se82.850 (3)
Mo3—Se22.5821 (8)Cr1—Se9ii2.821 (3)
Mo3—Se3v2.5555 (8)Cr2—Se42.524 (3)
Mo3—Se42.5436 (9)Cr2—Se52.798 (2)
Mo3—Se7vi2.6346 (9)Cr2—Se9iii2.788 (6)
Mo4—Mo52.6441 (6)Cr2—Se102.738 (6)
Mo4—Mo62.6278 (9)Cr3—Se42.501 (8)
Mo4—Mo72.7347 (5)Cr3—Se7vi2.782 (7)
Mo4—Mo82.6931 (7)Cr3—Se8vi2.859 (8)
Mo4—Se1i2.6523 (9)Cr3—Se102.886 (8)
Mo4—Se52.6306 (8)Cr4—Se12.3096 (6)
Mo4—Se72.6382 (8)Cr4—Se5vi2.9635 (6)
Mo4—Se82.6873 (7)Cr4—Se11vi2.7815 (8)
Mo4—Se112.5507 (8)Cr1—Cr2i3.231 (5)
Mo5—Mo62.6431 (8)Cr1—Cr3i3.216 (12)
Mo5—Mo72.7095 (6)Cr2—Cr33.295 (10)
Mo5—Mo83.8244 (6)
Symmetry codes: (i) x1, y, z1; (ii) x, y, z1; (iii) x+1, y, z; (iv) x1, y, z; (v) x, y, z+1; (vi) x+1, y, z+1; (vii) x1, y, z; (viii) x, y+1/2, z.
 

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