Double salt crystal structure of hexa­sodium hemiundeca­hydrogen α-hexa­molybdoplatinate(IV) heminona­hydrogen α-hexa­molybdoplatinate(IV) nona­cosa­hydrate: di­hydrogen disordered-mixture double salt

The title double salt containing two distinct, differently protonated hexa­molybdoplatinate(IV) polyanions. The polyanion pairs both form dimers of the same formula, viz. {[H₁₀ α-Pt2Mo₁₂O₄₈]}⁶⁻ connected by seven inter­polyanion O—H⋯O hydrogen bonds.

Abstract

The title double salt containing two distinct, differently protonated hexa­molybdoplatinate(IV) polyanions, Na₆[H_5.5 α-PtMo₆O₂₄][H_4.5 α-PtMo₆O₂₄]·29H₂O, has been synthesized by a hydro­thermal reaction at ca pH 1.80. The positions of the H atoms in the polyanions were established from difference Fourier maps and confirmed by the inter­polyanion hydrogen bonds, bond-distance elongation, and bond-valence sum (BVS) calculations. The fractional numbers of H atoms in each polyanion are required for charge balance and in order to avoid unrealistically short H⋯H distances in the inter­polyanion hydrogen bonds. Considering the disorder, the refined formula of the title polyanion, {[H_5.5 α-PtMo₆O₂₄]; polyanion (A) and [H_4.5 α-PtMo₆O₂₄]; polyanion (B)}⁶⁻, can be rewritten as a set of real formula, viz. {[H₆ α-PtMo₆O₂₄]; polyanion (A). [H₄ α-PtMo₆O₂₄]; polyanion (B)}⁶⁻ and {[H₅ α-PtMo₆O₂₄]; polyanion (A). [H₅ α-PtMo₆O₂₄]; polyanion (B)}⁶⁻. The polyanion pairs both form dimers of the same formula, viz. {[H₁₀ α-Pt2Mo₁₂O₄₈]}⁶⁻ connected by seven inter­polyanion O—H⋯O hydrogen bonds.

Chemical context  

The α (planar structure) – β (bent structure) – α geometrical isomerization, according to stepwise protonation in the [PtMo₆O₂₄]⁸⁻ polyoxometalate (POM) species, viz. ([H_3.5 α-PtMo₆O₂₄]^4.5− (Lee & Sasaki, 1994 ▸; Lee, 1988 ▸) , [H₄ β-PtMo₆O₂₄]⁴⁻ (Lee & Sasaki, 1994 ▸; Joo et al., 1994 ▸) and [H_4.5 α-PtMo₆O₂₄]^3.5− (Lee & Sasaki, 1994 ▸; Lee et al., 2010 ▸; Joo et al., 2015a ▸) is an unprecedented phenomenon in the Anderson-type heteropolyanion (Anderson, 1937 ▸) and as well as in the chemistry of POMs. In addition, differently proton­ated polyanion species have been reported, viz. [H₂ α-PtMo₆O₂₄]⁶⁻ (Lee & Joo, 2000 ▸; Lee & Joo, 2004 ▸), and [H₆ α-PtMo₆O₂₄]²⁻ (Lee & Joo, 2006a ▸; Lee & Joo, 2006b ▸; Lee & Joo, 2010 ▸). These polyanions form dimers by effective inter­polyanion hydrogen bonds. Recently, a hydrogen-bonded hexa­molybdoplatinate(IV) tetra­mer, [(α-PtMo₆O₂₄)₄H₂₃]⁹⁻, and the trimers, [(α-PtMo₆O₂₄)₃H₁₆]⁸⁻ and [(α-PtMo₆O₂₄)₃H₁₄]¹⁰⁻ were reported as tetra-n-butyl­ammonium, and tetra-n-butyl­ammonium/tri­ethyl­ammonium salts, respectively (Day et al., 2009 ▸).

In our studies of Anderson-type heteropolyoxotungstates containing Pt^IV, [H_nα-Pt^IVW₆O₂₄]^(8–n)– n = 0, 2, 2.5, 3, 3.5), we have found out that the gradual protonation is also a typical character of these compounds (Izarova et al., 2012 ▸). Furthermore, we have reported the stepwise protonation species in the nona­vanadoplatinate(IV) series, viz. [H_nPtV₉O₂₈]⁽⁷⁻ⁿ⁾⁻ (n = 2 and 3) (Lee et al., 2008 ▸; Joo et al., 2011 ▸; Joo & Lee, 2015 ▸; Joo et al., 2015b ▸). As well as the Pt^IV a Keggin-type (Keggin, 1934 ▸) heteropolyoxometalate was formed, [α-SiPt^IV ₂W₁₀O₄₀]⁸⁻ (Lee et al., 2003 ▸).

The Pt^IV ion shows a very rich chemical behavior when it forms POMs with Mo, W and V systems. We assume that the diversity of the Pt^IV-containing POMs is caused by the starting material of the heteroatom, [Pt^IV(OH)₆]²⁻, and the similarities in the oxidation states and the ionic radii of addenda atoms (Pt⁴⁺; 0.76, Mo⁶⁺; 0.73, W⁶⁺; 0.74 & V⁵⁺; 0.68 Å; Shannon, 1976 ▸) and the electron configuration of Pt⁴⁺ (5d ⁶) that preferentially forms the six-coordinated octa­hedra. In partic­ular, the selective protonation of the μ ₃-O atoms around Pt atom in the POMs is an important factor to the formation of POMs because the geometries of M—μ ₃-O (bond distance) and M—μ ₃-O—M (bond angle) (M = Mo, W and V) are changeable by the partial protonation of the μ ₃-O and μ ₂-O atoms.

Structural commentary  

The title compound contains two statistically different protonated hexa­molybdoplatinate(IV) polyanions, [H_5.5 α-Pt^IVMo₅O₂₄]^2.5− (A), and [H_4.5 α-Pt^IVMo₅O₂₄]^3.5− (B). Figs. 1 ▸ and 2 ▸ show the structures of the title compound and polyanions, respectively. The O atoms of the clusters were designated as OT (terminal Mo=O atom), OB (bridging μ ₂-OB atom; Mo—O—Mo), and OC (centered μ ₃-O atom; Mo₂—OC—Pt).

Figure 1.

The mol­ecular entities in the crystal structure of the title compound. Displacement ellipsoids are drawn at the 50% probability level. The H atoms of the polyanion are presented as small spheres of arbitrary radius and the H atoms of water mol­ecules have been omitted for clarity. Bonds between coordinating OW molecules and Na⁺ are indicated by dashed lines.

Figure 2.

The polyanion structure in the title compound with the atomic numbering scheme and displacement ellipsoids at the 50% probability level for non-H atoms. H atoms are presented as small spheres of arbitrary radius.

The H atoms of the protonated O atoms were found in difference Fourier maps and confirmed by bond-length elongation of Mo—O, and change of angles of Mo—OB—Mo and Mo—OC—Mo (Table 1 ▸), the inter­polyanion hydrogen bonds (Table 2 ▸ and Fig. 4), and the bond-valence sums (BVSs; Brown & Altermatt, 1985 ▸; Brese & O’Keeffe, 1991 ▸). The protonated O atoms in the hexa­molybdoplatinates(IV), polyanion (A) and (B), are five (Pt and Mo₂)-bound μ ₃-O (O2C—O6C) and one Mo₂-bound μ ₂-O (O7B) [for polyanion (A)], and four (Pt and Mo₂)-bound μ ₃-O (O26C—O28C and O30C) and one Mo₂-bound μ ₂-O (O31B) [for polyanion (B)] atoms. One (Pt and Mo₂)-bound μ ₃-O atom in each polanion [O2C for polyanion (A) and O30C for polyanion (B)] is half-number protonated by disorder (Fig. 2 ▸). The residues of the two disordered H atoms, H2 and H30, were confirmed in the difference Fourier map (Fig. 3 ▸). This disorder is necessary for charge-balance of the polyanions and in order to avoid unreasonably short H⋯H distances in the inter­polyanion hydrogen bonds.

Table 1. Selected geometric parameters (, ).

Mo1O1C	2.114(3)	Mo1O7B	2.098(3)
Mo6O1C	2.198(3)	Mo6O7B	2.076(3)
Mo1O2C	2.216(3)	Mo1O8B	1.883(3)
Mo2O2C	2.246(3)	Mo2O8B	1.963(3)
Mo2O3C	2.245(3)	Mo2O9B	1.924(3)
Mo3O3C	2.336(3)	Mo3O9B	1.953(3)
Mo3O4C	2.267(3)	Mo3O10B	1.927(3)
Mo4O4C	2.283(3)	Mo4O10B	1.947(3)
Mo4O5C	2.312(3)	Mo4O11B	1.916(3)
Mo5O5C	2.280(3)	Mo5O11B	1.935(3)
Mo5O6C	2.358(3)	Mo5O12B	1.947(3)
Mo6O6C	2.287(3)	Mo6O12B	1.906(3)
Mo7O25C	2.186(3)	Mo7O31B	2.072(3)
Mo12O25C	2.084(3)	Mo12O31B	2.090(3)
Mo7O26C	2.297(3)	Mo7O32B	1.899(3)
Mo8O26C	2.305(3)	Mo8O32B	1.935(3)
Mo8O27C	2.272(3)	Mo8O33B	1.959(3)
Mo9O27C	2.302(3)	Mo9O33B	1.932(3)
Mo9O28C	2.307(3)	Mo9O34B	1.925(3)
Mo10O28C	2.302(3)	Mo10O34B	1.961(3)
Mo10O29C	2.196(3)	Mo10O35B	1.988(3)
Mo11O29C	2.122(3)	Mo11O35B	1.947(3)
Mo11O30C	2.359(3)	Mo11O36B	1.970(3)
Mo12O30C	2.340(3)	Mo12O36B	1.870(3)
Mo1O1CMo6	104.42(13)	Mo12O25CMo7	104.38(13)
Mo1O2CMo2	93.27(12)	Mo7O26CMo8	92.23(11)
Mo2O3CMo3	92.61(11)	Mo8O27CMo9	93.67(11)
Mo3O4CMo4	94.36(12)	Mo10O28CMo9	93.85(11)
Mo5O5CMo4	93.05(11)	Mo11O29CMo10	96.01(12)
Mo6O6CMo5	91.98(11)	Mo12O30CMo11	90.63(11)
Mo6O7BMo1	109.51(15)	Mo7O31BMo12	108.35(15)
Mo1O8BMo2	115.01(15)	Mo7O32BMo8	119.84(16)
Mo2O9BMo3	117.38(16)	Mo9O33BMo8	118.01(15)
Mo3O10BMo4	118.97(16)	Mo9O34BMo10	120.01(16)
Mo4O11BMo5	119.86(16)	Mo11O35BMo10	109.31(15)
Mo6O12BMo5	120.24(16)	Mo12O36BMo11	120.93(15)

Table 2. Hydrogen-bond geometry (, ).

DHA	DH	HA	D A	DHA
O2CH2O30C	0.86(3)	1.84(6)	2.595(5)	145(9)
O3CH3O14W i	0.86(3)	1.74(3)	2.586(5)	164(4)
O4CH4O38T	0.85(3)	1.72(3)	2.576(4)	178(5)
O5CH5O29W	0.86(3)	1.79(3)	2.595(5)	156(5)
O6CH6O48T	0.86(3)	1.72(3)	2.569(4)	171(5)
O7BH7O35B	0.84(3)	1.94(3)	2.785(5)	175(5)
O26CH26O17T	0.82(3)	1.73(3)	2.556(4)	178(5)
O27CH27O15W ii	0.87(3)	1.70(3)	2.548(5)	164(5)
O28CH28O16T	0.86(3)	1.73(3)	2.575(4)	166(5)
O30CH30O2C	0.84(3)	1.76(3)	2.595(5)	172(9)
O31BH31O9B	0.82(3)	1.95(3)	2.763(4)	171(5)
O1WH1AO36B ii	0.87(3)	1.96(3)	2.830(5)	173(5)
O1WH1BO48T	0.84(3)	2.22(3)	3.023(5)	161(5)
O2WH2AO16W	0.86(3)	1.87(3)	2.731(6)	175(5)
O2WH2BO43T iii	0.87(3)	2.17(3)	3.031(5)	169(5)
O3WH3AO22W	0.87(3)	2.10(3)	2.969(6)	175(5)
O3WH3BO38T	0.86(3)	2.13(3)	2.980(5)	176(5)
O4WH4AO26W	0.88(3)	1.98(3)	2.857(6)	175(5)
O4WH4BO25W	0.82(3)	1.99(3)	2.806(6)	176(6)
O5WH5AO16T	0.85(3)	2.08(3)	2.930(5)	178(6)
O6WH6AO25C ii	0.86(3)	2.04(3)	2.880(5)	167(5)
O6WH6BO18W	0.87(3)	1.97(3)	2.831(6)	173(5)
O7WH7AO17W iv	0.82(3)	1.98(3)	2.804(5)	175(6)
O7WH7BO32B ii	0.82(3)	2.02(3)	2.842(5)	174(5)
O8WH8AO34B iii	0.87(3)	2.21(3)	3.064(5)	168(5)
O8WH8BO9W iii	0.87(3)	1.89(3)	2.750(6)	169(5)
O9WH9AO19T v	0.83(3)	2.22(3)	3.046(5)	178(5)
O9WH9BO7W vi	0.86(3)	1.91(3)	2.720(5)	156(6)
O10WH10AO25W vii	0.84(3)	2.23(4)	2.924(7)	140(5)
O10WH10BO21W viii	0.86(3)	2.02(3)	2.874(7)	174(7)
O11WH11AO34B	0.85(3)	1.93(3)	2.723(5)	155(5)
O11WH11BO43T ix	0.85(3)	2.08(3)	2.867(5)	154(5)
O12WH12AO22T	0.98	2.25	2.904(5)	123
O12WH12AO21W	0.98	2.31	3.141(8)	142
O13WH13AO12W x	0.99	1.80	2.766(6)	164
O13WH13BO31B	0.99	2.53	3.396(5)	146
O14WH14AO27W iii	0.98	1.76	2.737(6)	177
O14WH14BO23W	0.98	1.96	2.796(6)	142
O15WH15AO19W	0.83(3)	1.97(3)	2.738(5)	154(5)
O16WH16AO20W	0.89(3)	2.45(6)	3.156(7)	137(7)
O16WH16BO24W viii	0.85(3)	2.17(6)	2.842(6)	136(6)
O17WH17AO8B xi	0.81(3)	1.98(3)	2.790(5)	173(5)
O17WH17BO17T	0.84(3)	2.22(3)	3.027(5)	160(5)
O18WH18AO28W	0.83(3)	2.18(4)	2.907(5)	146(5)
O18WH18BO1C viii	0.81(3)	1.99(3)	2.798(5)	176(5)
O19WH19AO29C ii	0.85(3)	2.01(3)	2.842(5)	164(5)
O19WH19BO10W viii	0.80(3)	2.14(3)	2.920(6)	164(6)
O20WH20BO23W	0.85(3)	2.46(7)	3.121(8)	135(8)
O21WH21AO23T	0.89(3)	2.24(4)	3.064(6)	155(7)
O21WH21BO33B iii	0.86(3)	2.17(3)	2.972(5)	155(6)
O22WH22AO28W ii	0.88(3)	2.28(5)	3.007(6)	140(5)
O22WH22BO26W ii	0.85(3)	1.96(3)	2.805(7)	169(6)
O23WH23AO22T	0.87(3)	2.30(5)	2.970(6)	134(6)
O23WH23BO10B i	0.85(3)	1.95(3)	2.775(5)	162(7)
O24WH24AO28W	0.84(3)	2.02(3)	2.854(6)	173(6)
O24WH24BO35B	0.89(3)	2.05(3)	2.911(5)	163(5)
O25WH25AO38T ii	0.83(3)	2.52(6)	3.119(6)	130(7)
O25WH25BO47T	0.86(3)	2.01(3)	2.834(5)	161(7)
O26WH26AO24W	0.87(3)	1.93(5)	2.723(6)	150(7)
O26WH26BO19T v	0.87(3)	2.23(4)	2.920(5)	135(5)
O27WH27AO18T xi	0.86(3)	2.33(5)	2.945(5)	129(5)
O27WH27BO33B	0.87(3)	2.10(4)	2.846(5)	144(5)
O28WH28AO12B viii	0.86(3)	1.93(3)	2.775(5)	168(6)
O28WH28BO1W	0.86(3)	1.96(3)	2.817(6)	171(6)
O29WH29AO22T i	0.86(3)	2.26(5)	2.895(5)	131(5)
O29WH29BO22W vii	0.84(3)	2.03(3)	2.844(6)	165(7)

Symmetry codes: (i) ; (ii) ; (iii) ; (iv) ; (v) ; (vi) ; (vii) ; (viii) ; (ix) ; (x) ; (xi) .

Figure 3.

Difference-Fourier map around atoms H2 and H30. Calculated with atom H2 and H30 absent from the model.

Two discrete heteropolyanions, (A) and (B), form a dimer, {[H₁₀ α-Pt₂Mo₁₂O₄₈]⁶⁻, held together by two strong pairs of (Pt and Mo₂)-bound μ ₃-OC—H⋯(Mo)-bound μ ₁-OT, normally a pair of (Mo2)-bound μ ₂-OB—H⋯(Mo₂)-bound μ ₂-OB, and a single disordered strong (Pt and Mo₂)-bound μ ₃-OC—H⋯(Pt and Mo2)-bound μ ₃-OC hydrogen bonds (Fig. 4 ▸ and Table 2 ▸). Considering the disorder, the statistically refined formula of the title polyanion, {[H_5.5 α-PtMo₆O₂₄]·[H_4.5 α-PtMo₆O₂₄]}⁶⁻, can be rewritten as mixture of dimers of {[H₆ α-PtMo₆O₂₄]; polyanion (A)}·[H₄ α-PtMo₆O₂₄]; polyanion (B)}⁶⁻ and {[H₅ α-PtMo₆O₂₄]; polyanion (A)}·[H₅ α-PtMo₆O₂₄]; polyanion (B)}⁶⁻ (Fig. 5 ▸). In other words, a set of polyanion (A), [H_5.5 α-PtMo₆O₂₄]^2.5−, and polyanion (B), [H_4.5 α-PtMo₆O₂₄]^3.5−, are the average disordered formulae of {[H₆α-PtMo₆O₂₄]²·[H₄α-PtMo₆O₂₄]⁴⁻} and {[H₅α-PtMo₆O₂₄]³⁻·[H₅α-PtMo₆O₂₄]³⁻} (Fig. 5 ▸).

Figure 4.

Polyhedral view of the heteropolyanion in the title compound, with O—H⋯O contacts of the inter­polyanion hydrogen bonds shown as red dashed lines. Disordered H atoms are included.

Figure 5.

Polyhedral view of the unit-cell packing in the title compound, with O—H⋯O contacts of the inter­polyanion hydrogen bonds shown as red dashed lines. Disordered H atoms have been omitted. [Symmetry code: (i) −x + 1, −y + 1, −z + 1.]

The previously reported [β-H₄PtMo₆O₂₄]⁴⁻ polyanion (Lee & Sasaki, 1994 ▸; Joo et al., 1994 ▸) showed a bent structure (C _2v) but the present polyanion shows a near planar structure. The protonated O atoms of [H₆PtMo₆O₂₄]²⁻ in the present structure show the same protonation scheme as one previously reported (Lee & Joo, 2006a ▸,b ▸), viz. four μ ₃-OC and two μ ₂-OB atoms are protonated. However, the protonation scheme of the previously reported polyanion in [H₆PtMo₆O₂₄]²⁻ (Lee & Joo, 2010 ▸) was different, consisting of five μ ₃-OC and one μ ₂-OB protonated O atoms. Five proton­ated polyanion species (A) and (B) were confirmed for the first time in the title compound. Four μ ₃-O and one μ ₂-O atoms are protonated in both polyanions, but the position of the unprotonated μ ₃-O atom differs (Fig. 2 ▸).

Confirmation of the protonated O atoms was strongly supported by the BVS analysis. The BVSs for protonated atoms O2C–O6C and O7B in polyanion (A) are 1.58, 1.45, 1.43, 1.36, 1.42 and 1.24, and O26C–O28C, O30C and O31B in the polyanion (B) are 1.41, 1.41, 1.39, 1.33 and 1.24 valence units (v.u.), respectively, if the valence of the O—H bond is not included. As the BVS value around the O atoms in the polyanion should be 2.0 v.u., the missing valences for each of the O atoms are 0.42 (for O2C), 0.55 (for O3C), 0.57 (for O4C), 0.64 (for O5C), 0.58 (for O6C) and 0.76 (for O7B) v.u. in polyanion (A), and 0.59 (for O26C), 0.59 (for O27C), 0.61 (for O28C), 0.67 (for O30C) and 0.76 (for O31B) in polyanion (B), respectively, corresponding to the valence of the O—H bonds. The BVSs around the other unprotonated atoms, O1C and O8B–O12B in the polyanion (A) and O25C, O29C and O32B–O36B in polyanion (B) are 1.82, 1.93, 1.84, 1.85, 1.90 and 1.90, and 1.82, 1.80, 1.94, 1.80, 1.81, 1.70 and 1.94 v.u., respectively, if the valence of the OB and the C⋯H—OW hydrogen bonds and (OB and C)⋯Na⁺ inter­actions are not included.

All Na⁺ cations are located on general positions of the space group P . The calculated BVSs for the Na1–Na6 ions are 1.22, 1.19, 1.32, 1.10, 1.21 and 1.18 v.u., respectively (Na⁺⋯O distance 〈 2.50 Å; total v.u = 7.22). The Na⁺ ions are variously coordinated by O atoms as [Na1(OT)₂(OW)₄]⁺, [Na2(OT)(OW)₅]⁺, [Na3(OT)₂(OW)₄]⁺, [Na4(OT)(OW)₄]⁺, [Na5(OT)₂(OW)₄]⁺ and [Na6(OT)₂(OW)₄]⁺.

Supra­molecular features  

The dimerized polyanions (A) + (B), {[H₁₀ α-Pt₂Mo₁₂O₄₈]⁶⁻, are connected three-dimensionally by O atoms of the polyanion coordinated to Na⁺ ions. Two discrete heteropolyanions, (A) and (B), form a dimer, {[H₁₀ α-Pt₂Mo₁₂O₄₈]⁶⁻, held together by two strong pairs of (Pt and Mo₂)-bound μ ₃-OC—H⋯(Mo)-bound μ ₁-OT, normally a pair of (Mo₂)-bound μ ₂-OB—H⋯(Mo₂)-bound μ ₂-OB, and a single disordered strong (Pt and Mo₂)-bound μ ₃O-C—H_0.5⋯(Pt & Mo₂)-bound μ ₃-OC hydrogen bond (Fig. 4 ▸ and Table 2 ▸). It is notable that the water mol­ecules O21W–O29W, do not show any inter­action with the metal atoms and are bonded to other O atoms only by O—H⋯O hydrogen bonds. The other H atoms of the polyanion (H3, H5 and H27) form hydrogen bonds with water mol­ecules (Table 2 ▸).

Synthesis and crystallization  

Crystals of title compound were prepared by the reaction of Na₂MoO₄·2H₂O and Na₂Pt(OH)₆ at ca pH 1.80 as described in a previous report (Lee & Sasaki, 1994 ▸).

Refinement  

The crystal data, the data collection and the structure refinement details are summarized in Table 3 ▸. Atoms O5C and O30C, and O2C and O25C sets required an ISOR restraint in SHELXL2014/7 (Sheldrick, 2015 ▸) with reduced deviation s = 0.004 and st = 0.008, and s = 0.002 and st = 0.004, respectively. All H atoms of polyanions were located in difference Fourier maps, and were refined with a distance restraint of O—H = 0.85 (3) Å using the command DFIX in SHELXL2014/7, and included in the refinement with U _iso(H) = 1.5U _eq(O). The occupancies of atoms H2 and H30 were reduced to 0.5 because of disorder. All H atoms of the water mol­ecules, except O12W–O15W, were located in difference Fourier maps, and were refined using a distance restraint of O—H = 0.85 (3) Å and an angle restraint of HA—HB = 1.40 (3) Å using the command DFIX in SHELXL2014/7, and included in the refinement with U _iso(H) = 1.5U _eq(O). An angle restraint of 1.35 (3) Å for O5W, O18W and O19W, and 1.30 (3) Å for O7W was applied. The H atoms of O12W–O13W were positioned geometrically and refined using a riding model (HFIX 137), with OW—H = 0.98 Å and U _iso(H) = 1.5U _eq(O). The H atoms of O14W were refined using a riding model (HFIX 23), with OW—H = 0.99 Å and U _iso(H) = 1.5U _eq(O). All invalid H atoms were removed in the final step of refinement. The highest peak in the difference map is 0.82 Å from Pt1 and the deepest hole is 0.98 Å from Pt2.

Table 3. Experimental details.

Crystal data
Chemical formula	Na6[H5.5 -PtMo6O24]
M r	2979.85
Crystal system, space group	Triclinic, P
Temperature (K)	173
a, b, c ()	14.0384(6), 15.7969(6), 16.7235(6)
, , ()	72.825(2), 75.522(2), 89.168(2)
V (3)	3423.7(2)
Z	2
Radiation type	Mo K
(mm1)	6.36
Crystal size (mm)	0.67 0.44 0.22
Data collection
Diffractometer	Bruker SMART APEXII CCD
Absorption correction	Multi-scan (SADABS; Bruker, 2009 ▸)
T min, T max	0.234, 0.746
No. of measured, independent and observed [I > 2(I)] reflections	58415, 14940, 12688
R int	0.057
(sin /)max (1)	0.639
Refinement
R[F 2 > 2(F 2)], wR(F 2), S	0.036, 0.091, 1.06
No. of reflections	14940
No. of parameters	1064
No. of restraints	114
H-atom treatment	Only H-atom coordinates refined
max, min (e 3)	1.73, 2.25

Computer programs: APEX2 and SAINT (Bruker, 2009 ▸), SHELXS2014/7 (Sheldrick, 2008 ▸), SHELXL2014/7 (Sheldrick, 2015 ▸), ORTEP-3 for Windows (Farrugia, 2012 ▸), PLATON (Spek, 2009 ▸) and DIAMOND (Brandenburg, 1998 ▸).

Supplementary Material

CCDC reference: 1426214

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

supplementary crystallographic information

Crystal data

H6Mo6O24Pt·H4Mo6O24Pt·29(H2O)·6(Na)	Z = 2
Mr = 2979.85	F(000) = 2820
Triclinic, P1	Dx = 2.891 Mg m−3
a = 14.0384 (6) Å	Mo Kα radiation, λ = 0.71073 Å
b = 15.7969 (6) Å	Cell parameters from 9847 reflections
c = 16.7235 (6) Å	θ = 2.2–28.3°
α = 72.825 (2)°	µ = 6.36 mm−1
β = 75.522 (2)°	T = 173 K
γ = 89.168 (2)°	Block, yellow
V = 3423.7 (2) Å3	0.67 × 0.44 × 0.22 mm

Data collection

Bruker SMART APEXII CCD diffractometer	14940 independent reflections
Radiation source: Rotating Anode	12688 reflections with I > 2σ(I)
Graphite multilayer monochromator	Rint = 0.057
Detector resolution: 10.0 pixels mm-1	θmax = 27.0°, θmin = 1.4°
φ and ω scans	h = −16→17
Absorption correction: multi-scan (SADABS; Bruker, 2009)	k = −20→20
Tmin = 0.234, Tmax = 0.746	l = −21→21
58415 measured reflections

Refinement

Refinement on F2	Secondary atom site location: difference Fourier map
Least-squares matrix: full	Hydrogen site location: difference Fourier map
R[F2 > 2σ(F2)] = 0.036	Only H-atom coordinates refined
wR(F2) = 0.091	w = 1/[σ2(Fo2) + (0.0223P)2 + 5.6226P] where P = (Fo2 + 2Fc2)/3
S = 1.06	(Δ/σ)max = 0.002
14940 reflections	Δρmax = 1.73 e Å−3
1064 parameters	Δρmin = −2.25 e Å−3
114 restraints	Extinction correction: SHELXL2014/7 (Sheldrick 2014, Fc*=kFc[1+0.001xFc2λ3/sin(2θ)]-1/4
Primary atom site location: structure-invariant direct methods	Extinction coefficient: 0.00097 (2)

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.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Ų)

	x	y	z	Uiso*/Ueq	Occ. (<1)
Pt1	0.37861 (2)	0.80827 (2)	0.33415 (2)	0.00743 (6)
Pt2	0.13101 (2)	0.69756 (2)	0.15934 (2)	0.00734 (6)
Mo1	0.48088 (3)	0.73755 (3)	0.17456 (2)	0.01032 (9)
Mo2	0.38120 (3)	0.92698 (3)	0.13444 (2)	0.01043 (9)
Mo3	0.27924 (3)	1.00756 (3)	0.29553 (3)	0.01189 (9)
Mo4	0.27941 (3)	0.89367 (3)	0.49832 (2)	0.01226 (9)
Mo5	0.37444 (3)	0.69579 (3)	0.54288 (2)	0.01302 (9)
Mo6	0.47496 (3)	0.61324 (3)	0.38076 (3)	0.01233 (9)
Mo7	0.02597 (3)	0.89077 (3)	0.11926 (3)	0.01261 (9)
Mo8	0.12559 (3)	0.81350 (3)	−0.04502 (2)	0.01205 (9)
Mo9	0.22090 (3)	0.61525 (3)	−0.00919 (2)	0.01097 (9)
Mo10	0.21502 (3)	0.49586 (3)	0.19550 (2)	0.01178 (9)
Mo11	0.12327 (3)	0.56971 (3)	0.35600 (2)	0.01106 (9)
Mo12	0.02151 (3)	0.76546 (3)	0.32235 (2)	0.01089 (9)
Na1	0.23742 (14)	0.46059 (13)	0.69299 (12)	0.0204 (4)
Na2	0.23737 (13)	0.33338 (13)	0.89570 (12)	0.0215 (4)
Na3	0.00711 (13)	1.06967 (13)	0.39992 (12)	0.0207 (4)
Na4	0.02805 (15)	1.23682 (14)	0.20474 (13)	0.0312 (5)
Na5	0.25851 (14)	1.04851 (13)	−0.20594 (12)	0.0197 (4)
Na6	0.50542 (14)	0.56953 (15)	−0.10815 (14)	0.0302 (5)
O1C	0.4984 (2)	0.7498 (2)	0.29268 (19)	0.0093 (6)
O2C	0.3429 (2)	0.7918 (2)	0.2319 (2)	0.0114 (7)
H2	0.302 (6)	0.750 (4)	0.236 (6)	0.017*	0.5
O3C	0.4185 (2)	0.9314 (2)	0.25614 (19)	0.0098 (7)
H3	0.470 (2)	0.958 (3)	0.260 (3)	0.015*
O4C	0.2544 (2)	0.8638 (2)	0.3794 (2)	0.0116 (7)
H4	0.199 (2)	0.840 (3)	0.382 (3)	0.017*
O5C	0.4156 (2)	0.8287 (2)	0.43710 (19)	0.0117 (7)
H5	0.471 (2)	0.858 (3)	0.423 (3)	0.018*
O6C	0.3372 (2)	0.6876 (2)	0.4153 (2)	0.0115 (7)
H6	0.283 (2)	0.664 (3)	0.415 (3)	0.017*
O7B	0.4252 (2)	0.6188 (2)	0.2725 (2)	0.0165 (7)
H7	0.372 (3)	0.593 (3)	0.275 (3)	0.025*
O8B	0.5009 (2)	0.8611 (2)	0.12156 (19)	0.0137 (7)
O9B	0.2635 (2)	0.9556 (2)	0.20675 (19)	0.0146 (7)
O10B	0.3285 (2)	0.9949 (2)	0.3959 (2)	0.0157 (7)
O11B	0.2613 (2)	0.7673 (2)	0.54830 (19)	0.0155 (7)
O12B	0.4894 (2)	0.6608 (2)	0.4697 (2)	0.0144 (7)
O13T	0.5925 (2)	0.5883 (2)	0.3436 (2)	0.0215 (8)
O14T	0.4079 (3)	0.5158 (2)	0.4360 (2)	0.0232 (8)
O15T	0.5986 (2)	0.7061 (2)	0.1477 (2)	0.0187 (8)
O16T	0.4206 (2)	0.7054 (2)	0.1085 (2)	0.0165 (7)
O17T	0.3308 (2)	0.9010 (2)	0.0596 (2)	0.0163 (7)
O18T	0.4392 (2)	1.0292 (2)	0.0834 (2)	0.0199 (8)
O19T	0.3365 (3)	1.1085 (2)	0.2315 (2)	0.0230 (8)
O20T	0.1590 (2)	1.0260 (2)	0.3325 (2)	0.0228 (8)
O21T	0.1608 (2)	0.9179 (2)	0.5323 (2)	0.0250 (9)
O22T	0.3430 (3)	0.9230 (2)	0.5618 (2)	0.0225 (8)
O23T	0.4295 (3)	0.7258 (3)	0.6111 (2)	0.0262 (9)
O24T	0.3127 (3)	0.5959 (2)	0.5988 (2)	0.0247 (8)
O25C	0.0097 (2)	0.7540 (2)	0.20418 (19)	0.0101 (7)
O26C	0.1662 (2)	0.8208 (2)	0.0782 (2)	0.0107 (7)
H26	0.220 (2)	0.846 (3)	0.073 (3)	0.016*
O27C	0.0895 (2)	0.6796 (2)	0.05850 (19)	0.0106 (7)
H27	0.030 (2)	0.655 (3)	0.075 (3)	0.016*
O28C	0.2520 (2)	0.6413 (2)	0.1108 (2)	0.0103 (7)
H28	0.311 (2)	0.654 (3)	0.111 (3)	0.015*
O29C	0.0931 (2)	0.5750 (2)	0.23650 (19)	0.0108 (7)
O30C	0.1708 (2)	0.7142 (2)	0.26046 (19)	0.0119 (7)
H30	0.224 (4)	0.744 (5)	0.250 (6)	0.018*	0.5
O31B	0.0771 (2)	0.8849 (2)	0.2266 (2)	0.0165 (7)
H31	0.129 (3)	0.910 (3)	0.223 (3)	0.025*
O32B	0.0110 (2)	0.8455 (2)	0.0295 (2)	0.0150 (7)
O33B	0.2413 (2)	0.7429 (2)	−0.05672 (19)	0.0144 (7)
O34B	0.1690 (2)	0.5144 (2)	0.09047 (19)	0.0141 (7)
O35B	0.2443 (2)	0.5361 (2)	0.28926 (19)	0.0147 (7)
O36B	0.0079 (2)	0.6417 (2)	0.36859 (19)	0.0132 (7)
O37T	−0.0955 (2)	0.7942 (2)	0.3539 (2)	0.0219 (8)
O38T	0.0849 (2)	0.7958 (2)	0.3885 (2)	0.0180 (8)
O39T	−0.0918 (3)	0.9120 (3)	0.1604 (2)	0.0251 (9)
O40T	0.0901 (3)	0.9901 (2)	0.0659 (2)	0.0265 (9)
O41T	0.1871 (3)	0.9132 (2)	−0.1021 (2)	0.0230 (8)
O42T	0.0681 (3)	0.7831 (2)	−0.1111 (2)	0.0219 (8)
O43T	0.1597 (2)	0.5900 (2)	−0.0772 (2)	0.0198 (8)
O44T	0.3380 (2)	0.5884 (2)	−0.0418 (2)	0.0210 (8)
O45T	0.3332 (3)	0.4717 (2)	0.1580 (2)	0.0233 (8)
O46T	0.1507 (3)	0.3978 (2)	0.2531 (2)	0.0264 (8)
O47T	0.0646 (2)	0.4688 (2)	0.4142 (2)	0.0200 (8)
O48T	0.1785 (2)	0.6017 (2)	0.4253 (2)	0.0169 (7)
O1W	0.1853 (3)	0.4397 (3)	0.5748 (2)	0.0277 (9)
H1A	0.124 (2)	0.419 (3)	0.591 (3)	0.042*
H1B	0.195 (4)	0.479 (3)	0.527 (2)	0.042*
O2W	0.2834 (3)	0.4879 (3)	0.8111 (2)	0.0258 (9)
H2A	0.344 (2)	0.506 (3)	0.800 (3)	0.039*
H2B	0.251 (3)	0.524 (3)	0.837 (3)	0.039*
O3W	−0.0402 (3)	0.9185 (2)	0.4682 (2)	0.0248 (8)
H3A	−0.1018 (19)	0.904 (4)	0.473 (3)	0.037*
H3B	−0.003 (3)	0.883 (3)	0.447 (4)	0.037*
O4W	0.0692 (3)	0.2145 (3)	0.3358 (3)	0.0327 (9)
H4A	0.131 (2)	0.221 (4)	0.336 (4)	0.049*
H4B	0.035 (3)	0.245 (4)	0.362 (4)	0.049*
O5W	0.5335 (3)	0.5855 (3)	0.0218 (3)	0.0339 (10)
H5A	0.500 (3)	0.621 (3)	0.046 (4)	0.051*
H5B	0.591 (2)	0.601 (4)	0.007 (4)	0.051*
O6W	0.1875 (3)	0.3127 (2)	0.7759 (2)	0.0207 (8)
H6A	0.1274 (19)	0.292 (3)	0.790 (3)	0.031*
H6B	0.225 (3)	0.273 (3)	0.760 (3)	0.031*
O7W	0.1841 (3)	0.1846 (3)	0.9808 (3)	0.0267 (9)
H7A	0.221 (3)	0.151 (3)	0.959 (4)	0.040*
H7B	0.126 (2)	0.175 (4)	0.982 (4)	0.040*
O8W	0.2657 (3)	0.3672 (2)	1.0195 (2)	0.0254 (8)
H8A	0.247 (4)	0.411 (2)	1.040 (3)	0.038*
H8B	0.239 (4)	0.320 (2)	1.061 (3)	0.038*
O9W	0.1896 (3)	0.2051 (3)	0.1354 (3)	0.0366 (10)
H9A	0.229 (4)	0.180 (4)	0.162 (3)	0.055*
H9B	0.184 (4)	0.183 (4)	0.096 (3)	0.055*
O10W	0.8819 (3)	0.2975 (3)	0.2745 (3)	0.0474 (11)
H10A	0.875 (4)	0.287 (5)	0.328 (2)	0.071*
H10B	0.832 (4)	0.276 (5)	0.263 (4)	0.071*
O11W	0.0385 (3)	0.3872 (2)	0.0928 (2)	0.0261 (8)
H11A	0.073 (3)	0.420 (3)	0.109 (3)	0.039*
H11B	−0.022 (2)	0.398 (4)	0.103 (4)	0.039*
O12W	0.2141 (3)	0.9781 (4)	0.7002 (3)	0.0618 (16)
H12A	0.2596	0.9318	0.6923	0.093*
H12B	0.2181	1.0222	0.6440	0.093*
O13W	−0.0165 (3)	1.0739 (3)	0.2621 (2)	0.0315 (9)
H13A	−0.0853	1.0581	0.2644	0.047*
H13B	0.0300	1.0386	0.2321	0.047*
O14W	0.4187 (2)	0.9806 (2)	0.7644 (2)	0.0233 (8)
H14A	0.4196	0.9282	0.8133	0.035*
H14B	0.4274	0.9631	0.7116	0.035*
O15W	0.0789 (3)	0.3932 (2)	0.9223 (2)	0.0219 (8)
H15A	0.073 (4)	0.439 (3)	0.884 (2)	0.033*
H15B	0.075 (4)	0.399 (3)	0.9722 (19)	0.033*
O16W	0.4775 (3)	0.5453 (4)	0.7651 (3)	0.0575 (15)
H16A	0.461 (5)	0.600 (3)	0.762 (5)	0.086*
H16B	0.518 (4)	0.550 (4)	0.717 (3)	0.086*
O17W	0.3075 (3)	1.0648 (3)	−0.0822 (2)	0.0257 (9)
H17A	0.362 (3)	1.089 (3)	−0.098 (3)	0.039*
H17B	0.300 (4)	1.015 (2)	−0.043 (3)	0.039*
O18W	0.3126 (3)	0.1933 (3)	0.7104 (2)	0.0250 (9)
H18A	0.308 (4)	0.205 (4)	0.660 (2)	0.038*
H18B	0.367 (3)	0.208 (4)	0.712 (3)	0.038*
O19W	0.0830 (3)	0.5111 (3)	0.7640 (3)	0.0279 (9)
H19A	0.032 (3)	0.493 (3)	0.754 (4)	0.042*
H19B	0.093 (4)	0.5638 (18)	0.744 (4)	0.042*
O20W	0.5152 (5)	0.7241 (3)	0.8036 (4)	0.0765 (17)
H20A	0.540 (7)	0.731 (6)	0.845 (5)	0.115*
H20B	0.483 (6)	0.769 (4)	0.785 (5)	0.115*
O21W	0.2843 (4)	0.7843 (4)	0.7520 (3)	0.0685 (16)
H21A	0.340 (4)	0.771 (5)	0.720 (4)	0.103*
H21B	0.290 (5)	0.766 (6)	0.804 (2)	0.103*
O22W	−0.2460 (4)	0.8598 (3)	0.4844 (3)	0.0504 (12)
H22A	−0.246 (5)	0.824 (4)	0.452 (3)	0.076*
H22B	−0.257 (6)	0.827 (4)	0.5371 (19)	0.076*
O23W	0.5070 (3)	0.8893 (3)	0.6478 (3)	0.0476 (12)
H23A	0.487 (4)	0.889 (5)	0.603 (3)	0.071*
H23B	0.564 (3)	0.917 (4)	0.628 (4)	0.071*
O24W	0.3421 (3)	0.3767 (3)	0.3558 (3)	0.0424 (11)
H24A	0.339 (5)	0.358 (4)	0.409 (2)	0.064*
H24B	0.305 (4)	0.423 (3)	0.347 (4)	0.064*
O25W	−0.0526 (4)	0.3217 (3)	0.4196 (3)	0.0541 (14)
H25A	−0.097 (4)	0.302 (4)	0.465 (3)	0.081*
H25B	−0.029 (5)	0.373 (3)	0.416 (4)	0.081*
O26W	0.2713 (3)	0.2255 (3)	0.3382 (3)	0.0518 (12)
H26A	0.277 (5)	0.282 (2)	0.335 (4)	0.078*
H26B	0.309 (5)	0.219 (4)	0.291 (3)	0.078*
O27W	0.4268 (3)	0.8374 (3)	−0.0976 (3)	0.0378 (10)
H27A	0.465 (4)	0.845 (4)	−0.067 (3)	0.057*
H27B	0.379 (3)	0.799 (3)	−0.065 (3)	0.057*
O28W	0.3135 (3)	0.3091 (3)	0.5390 (3)	0.0300 (9)
H28A	0.373 (2)	0.326 (4)	0.533 (4)	0.045*
H28B	0.277 (3)	0.348 (3)	0.555 (4)	0.045*
O29W	0.5730 (3)	0.9091 (3)	0.4418 (3)	0.0440 (12)
H29A	0.573 (5)	0.966 (2)	0.420 (4)	0.066*
H29B	0.621 (4)	0.896 (4)	0.463 (4)	0.066*

Atomic displacement parameters (Ų)

	U11	U22	U33	U12	U13	U23
Pt1	0.00954 (10)	0.00867 (10)	0.00598 (9)	−0.00002 (7)	−0.00068 (6)	−0.00612 (7)
Pt2	0.00933 (10)	0.00833 (10)	0.00628 (9)	0.00006 (7)	−0.00122 (6)	−0.00569 (7)
Mo1	0.0110 (2)	0.0139 (2)	0.01004 (19)	0.00019 (16)	−0.00179 (15)	−0.01018 (16)
Mo2	0.0118 (2)	0.0125 (2)	0.00893 (19)	−0.00137 (16)	−0.00222 (14)	−0.00634 (16)
Mo3	0.0139 (2)	0.0111 (2)	0.0126 (2)	0.00246 (16)	−0.00246 (15)	−0.00733 (16)
Mo4	0.0147 (2)	0.0147 (2)	0.00968 (19)	0.00173 (16)	−0.00023 (15)	−0.00955 (17)
Mo5	0.0176 (2)	0.0135 (2)	0.00813 (19)	0.00016 (17)	−0.00184 (15)	−0.00471 (16)
Mo6	0.0149 (2)	0.0109 (2)	0.0134 (2)	0.00249 (16)	−0.00354 (15)	−0.00718 (17)
Mo7	0.0148 (2)	0.0111 (2)	0.0145 (2)	0.00282 (16)	−0.00414 (16)	−0.00732 (17)
Mo8	0.0162 (2)	0.0121 (2)	0.00841 (19)	−0.00019 (16)	−0.00287 (15)	−0.00410 (16)
Mo9	0.0123 (2)	0.0136 (2)	0.00969 (19)	0.00170 (16)	−0.00127 (15)	−0.00888 (16)
Mo10	0.0152 (2)	0.0105 (2)	0.0114 (2)	0.00199 (16)	−0.00271 (15)	−0.00665 (16)
Mo11	0.0133 (2)	0.0140 (2)	0.00731 (19)	−0.00197 (16)	−0.00172 (14)	−0.00598 (16)
Mo12	0.0122 (2)	0.0140 (2)	0.01044 (19)	0.00028 (16)	−0.00208 (15)	−0.01016 (17)
Na1	0.0246 (11)	0.0195 (10)	0.0167 (10)	−0.0017 (8)	−0.0031 (8)	−0.0068 (8)
Na2	0.0182 (10)	0.0275 (11)	0.0215 (10)	0.0043 (8)	−0.0049 (8)	−0.0117 (9)
Na3	0.0208 (11)	0.0216 (11)	0.0191 (10)	0.0018 (9)	−0.0013 (8)	−0.0083 (9)
Na4	0.0332 (12)	0.0398 (13)	0.0217 (11)	0.0021 (10)	−0.0076 (9)	−0.0105 (10)
Na5	0.0196 (10)	0.0193 (10)	0.0213 (10)	−0.0013 (8)	−0.0044 (8)	−0.0083 (8)
Na6	0.0196 (11)	0.0406 (14)	0.0390 (13)	0.0043 (10)	−0.0025 (9)	−0.0292 (11)
O1C	0.0109 (15)	0.0103 (16)	0.0102 (15)	0.0030 (12)	−0.0029 (12)	−0.0083 (13)
O2C	0.0134 (13)	0.0141 (14)	0.0093 (13)	−0.0001 (11)	−0.0014 (10)	−0.0088 (11)
O3C	0.0123 (16)	0.0073 (16)	0.0114 (16)	−0.0029 (13)	−0.0031 (12)	−0.0049 (13)
O4C	0.0082 (16)	0.0139 (17)	0.0170 (17)	0.0010 (13)	−0.0028 (13)	−0.0115 (14)
O5C	0.0134 (16)	0.0147 (16)	0.0107 (15)	0.0002 (13)	−0.0019 (12)	−0.0106 (13)
O6C	0.0096 (16)	0.0118 (17)	0.0130 (16)	−0.0011 (13)	−0.0008 (12)	−0.0054 (14)
O7B	0.0179 (18)	0.0164 (18)	0.0179 (18)	−0.0008 (14)	−0.0056 (14)	−0.0083 (15)
O8B	0.0117 (16)	0.0169 (17)	0.0131 (16)	−0.0017 (13)	−0.0007 (12)	−0.0076 (14)
O9B	0.0162 (17)	0.0183 (18)	0.0122 (16)	−0.0005 (14)	−0.0028 (13)	−0.0098 (14)
O10B	0.0210 (18)	0.0127 (17)	0.0143 (17)	−0.0001 (14)	−0.0017 (13)	−0.0079 (14)
O11B	0.0175 (17)	0.0145 (17)	0.0120 (16)	0.0014 (14)	0.0016 (13)	−0.0046 (14)
O12B	0.0171 (17)	0.0152 (17)	0.0147 (17)	0.0039 (14)	−0.0060 (13)	−0.0088 (14)
O13T	0.0180 (19)	0.028 (2)	0.0227 (19)	0.0080 (16)	−0.0045 (14)	−0.0154 (16)
O14T	0.034 (2)	0.0139 (18)	0.0215 (19)	−0.0022 (16)	−0.0071 (16)	−0.0049 (15)
O15T	0.0132 (17)	0.025 (2)	0.0213 (18)	0.0026 (15)	−0.0010 (14)	−0.0142 (16)
O16T	0.0179 (18)	0.0210 (19)	0.0146 (17)	0.0004 (14)	−0.0025 (13)	−0.0125 (15)
O17T	0.0168 (17)	0.0228 (19)	0.0122 (16)	−0.0011 (14)	−0.0023 (13)	−0.0104 (15)
O18T	0.0229 (19)	0.0205 (19)	0.0144 (18)	−0.0061 (15)	−0.0014 (14)	−0.0051 (15)
O19T	0.031 (2)	0.0169 (19)	0.0208 (19)	−0.0033 (15)	−0.0048 (15)	−0.0063 (15)
O20T	0.0149 (18)	0.029 (2)	0.027 (2)	0.0067 (16)	−0.0029 (15)	−0.0146 (17)
O21T	0.0176 (19)	0.029 (2)	0.025 (2)	0.0050 (16)	0.0054 (15)	−0.0127 (17)
O22T	0.033 (2)	0.024 (2)	0.0157 (18)	−0.0011 (16)	−0.0057 (15)	−0.0140 (16)
O23T	0.032 (2)	0.035 (2)	0.0200 (19)	0.0023 (17)	−0.0101 (16)	−0.0176 (17)
O24T	0.030 (2)	0.0184 (19)	0.0189 (19)	−0.0024 (16)	−0.0004 (15)	−0.0012 (16)
O25C	0.0109 (13)	0.0106 (13)	0.0118 (13)	0.0017 (11)	−0.0010 (10)	−0.0095 (11)
O26C	0.0106 (16)	0.0088 (16)	0.0126 (16)	−0.0009 (13)	−0.0011 (13)	−0.0046 (13)
O27C	0.0116 (16)	0.0128 (17)	0.0118 (16)	0.0008 (13)	−0.0036 (12)	−0.0097 (13)
O28C	0.0078 (16)	0.0139 (17)	0.0137 (16)	0.0008 (13)	−0.0028 (12)	−0.0107 (13)
O29C	0.0149 (16)	0.0083 (16)	0.0090 (15)	−0.0016 (13)	−0.0019 (12)	−0.0033 (13)
O30C	0.0146 (16)	0.0170 (16)	0.0071 (14)	0.0015 (13)	−0.0025 (12)	−0.0086 (13)
O31B	0.0172 (18)	0.0169 (18)	0.0187 (18)	−0.0032 (14)	−0.0050 (14)	−0.0098 (15)
O32B	0.0168 (17)	0.0174 (18)	0.0147 (17)	0.0048 (14)	−0.0062 (13)	−0.0092 (14)
O33B	0.0142 (17)	0.0170 (18)	0.0115 (16)	−0.0008 (14)	−0.0005 (12)	−0.0060 (14)
O34B	0.0181 (17)	0.0137 (17)	0.0123 (16)	0.0003 (14)	−0.0036 (13)	−0.0068 (14)
O35B	0.0151 (17)	0.0201 (18)	0.0122 (16)	0.0034 (14)	−0.0029 (13)	−0.0104 (14)
O36B	0.0125 (16)	0.0164 (17)	0.0115 (16)	−0.0040 (13)	0.0004 (12)	−0.0079 (14)
O37T	0.0159 (18)	0.032 (2)	0.0221 (19)	0.0039 (16)	−0.0011 (14)	−0.0178 (17)
O38T	0.0196 (18)	0.0205 (19)	0.0149 (17)	−0.0046 (15)	−0.0007 (14)	−0.0097 (15)
O39T	0.0205 (19)	0.033 (2)	0.030 (2)	0.0133 (17)	−0.0092 (16)	−0.0201 (18)
O40T	0.039 (2)	0.0172 (19)	0.025 (2)	−0.0015 (17)	−0.0113 (17)	−0.0063 (16)
O41T	0.030 (2)	0.0172 (19)	0.0171 (18)	−0.0043 (16)	−0.0003 (15)	−0.0032 (15)
O42T	0.028 (2)	0.026 (2)	0.0211 (19)	0.0054 (16)	−0.0140 (15)	−0.0138 (16)
O43T	0.0244 (19)	0.0236 (19)	0.0180 (18)	0.0016 (15)	−0.0083 (14)	−0.0135 (16)
O44T	0.0156 (18)	0.027 (2)	0.0215 (19)	0.0048 (15)	−0.0002 (14)	−0.0134 (16)
O45T	0.0208 (19)	0.031 (2)	0.025 (2)	0.0141 (16)	−0.0094 (15)	−0.0179 (17)
O46T	0.036 (2)	0.0189 (19)	0.025 (2)	−0.0033 (16)	−0.0065 (16)	−0.0082 (16)
O47T	0.026 (2)	0.0193 (19)	0.0133 (18)	−0.0052 (15)	−0.0020 (14)	−0.0045 (15)
O48T	0.0179 (18)	0.0215 (19)	0.0121 (17)	−0.0015 (14)	−0.0030 (13)	−0.0069 (15)
O1W	0.028 (2)	0.034 (2)	0.019 (2)	−0.0081 (18)	−0.0076 (16)	−0.0033 (17)
O2W	0.021 (2)	0.032 (2)	0.026 (2)	−0.0052 (17)	0.0003 (16)	−0.0175 (18)
O3W	0.027 (2)	0.027 (2)	0.023 (2)	0.0053 (17)	−0.0023 (16)	−0.0141 (17)
O4W	0.045 (3)	0.027 (2)	0.030 (2)	−0.0024 (19)	−0.0093 (19)	−0.0144 (18)
O5W	0.018 (2)	0.044 (3)	0.053 (3)	0.0046 (19)	−0.0056 (19)	−0.039 (2)
O6W	0.0196 (19)	0.021 (2)	0.0224 (19)	−0.0023 (15)	−0.0023 (15)	−0.0101 (16)
O7W	0.022 (2)	0.028 (2)	0.035 (2)	0.0009 (17)	−0.0071 (17)	−0.0165 (18)
O8W	0.029 (2)	0.025 (2)	0.024 (2)	−0.0001 (17)	−0.0029 (16)	−0.0139 (17)
O9W	0.046 (3)	0.039 (3)	0.026 (2)	0.014 (2)	−0.0111 (18)	−0.0095 (19)
O10W	0.047 (3)	0.062 (3)	0.030 (2)	0.006 (2)	−0.003 (2)	−0.015 (2)
O11W	0.0184 (19)	0.032 (2)	0.036 (2)	−0.0039 (17)	−0.0055 (16)	−0.0239 (18)
O12W	0.033 (3)	0.122 (5)	0.047 (3)	−0.013 (3)	0.003 (2)	−0.059 (3)
O13W	0.031 (2)	0.038 (2)	0.029 (2)	0.0038 (18)	−0.0092 (17)	−0.0140 (18)
O14W	0.0219 (19)	0.026 (2)	0.025 (2)	−0.0024 (16)	−0.0042 (15)	−0.0134 (17)
O15W	0.0180 (18)	0.030 (2)	0.0205 (19)	0.0008 (16)	−0.0039 (15)	−0.0124 (17)
O16W	0.029 (3)	0.104 (4)	0.052 (3)	−0.008 (3)	−0.001 (2)	−0.050 (3)
O17W	0.025 (2)	0.025 (2)	0.023 (2)	−0.0075 (17)	−0.0051 (16)	−0.0021 (17)
O18W	0.024 (2)	0.024 (2)	0.028 (2)	−0.0037 (17)	−0.0076 (17)	−0.0068 (18)
O19W	0.022 (2)	0.025 (2)	0.036 (2)	−0.0005 (17)	−0.0053 (17)	−0.0087 (19)
O20W	0.086 (5)	0.045 (3)	0.084 (5)	−0.003 (3)	0.015 (3)	−0.026 (3)
O21W	0.056 (3)	0.109 (5)	0.033 (3)	0.002 (3)	0.007 (2)	−0.024 (3)
O22W	0.051 (3)	0.056 (3)	0.063 (3)	0.013 (2)	−0.022 (3)	−0.041 (3)
O23W	0.033 (2)	0.077 (3)	0.044 (3)	−0.017 (2)	−0.004 (2)	−0.037 (3)
O24W	0.065 (3)	0.042 (3)	0.029 (2)	0.008 (2)	−0.023 (2)	−0.014 (2)
O25W	0.059 (3)	0.052 (3)	0.046 (3)	−0.027 (2)	0.021 (2)	−0.033 (3)
O26W	0.047 (3)	0.050 (3)	0.069 (3)	0.005 (2)	−0.011 (2)	−0.037 (3)
O27W	0.041 (3)	0.038 (3)	0.034 (2)	−0.007 (2)	−0.0026 (19)	−0.015 (2)
O28W	0.024 (2)	0.036 (2)	0.034 (2)	−0.0010 (18)	−0.0077 (18)	−0.0154 (19)
O29W	0.032 (3)	0.036 (3)	0.071 (3)	−0.003 (2)	−0.019 (2)	−0.022 (3)

Geometric parameters (Å, º)

Mo1—O1C	2.114 (3)	Na4—O10Wv	2.428 (5)
Mo6—O1C	2.198 (3)	Na4—O13W	2.495 (4)
Mo1—O2C	2.216 (3)	Na4—O11Wii	2.534 (4)
Mo2—O2C	2.246 (3)	Na5—O18Wvi	2.322 (4)
Mo2—O3C	2.245 (3)	Na5—O41T	2.364 (4)
Mo3—O3C	2.336 (3)	Na5—O12Wvii	2.373 (4)
Mo3—O4C	2.267 (3)	Na5—O39Tiv	2.406 (4)
Mo4—O4C	2.283 (3)	Na5—O17W	2.419 (4)
Mo4—O5C	2.312 (3)	Na5—O14Wvii	2.478 (4)
Mo5—O5C	2.280 (3)	Na6—O45Tviii	2.363 (4)
Mo5—O6C	2.358 (3)	Na6—O16Wvii	2.386 (5)
Mo6—O6C	2.287 (3)	Na6—O5W	2.387 (5)
Mo7—O25C	2.186 (3)	Na6—O44T	2.390 (4)
Mo12—O25C	2.084 (3)	Na6—O5Wviii	2.436 (5)
Mo7—O26C	2.297 (3)	Na6—O20Wvii	2.437 (6)
Mo8—O26C	2.305 (3)	O2C—O30C	2.595 (5)
Mo8—O27C	2.272 (3)	O2C—H2	0.86 (3)
Mo9—O27C	2.302 (3)	O3C—H3	0.86 (3)
Mo9—O28C	2.307 (3)	O4C—H4	0.85 (3)
Mo10—O28C	2.302 (3)	O5C—H5	0.86 (3)
Mo10—O29C	2.196 (3)	O6C—H6	0.86 (3)
Mo11—O29C	2.122 (3)	O7B—H7	0.84 (3)
Mo11—O30C	2.359 (3)	O13T—Na1i	2.483 (4)
Mo12—O30C	2.340 (3)	O15T—Na2i	2.369 (4)
Mo1—O7B	2.098 (3)	O21T—Na3iii	2.379 (4)
Mo6—O7B	2.076 (3)	O26C—H26	0.82 (3)
Mo1—O8B	1.883 (3)	O27C—H27	0.87 (3)
Mo2—O8B	1.963 (3)	O28C—H28	0.86 (3)
Mo2—O9B	1.924 (3)	O30C—H30	0.84 (3)
Mo3—O9B	1.953 (3)	O31B—H31	0.82 (3)
Mo3—O10B	1.927 (3)	O39T—Na5iv	2.406 (4)
Mo4—O10B	1.947 (3)	O42T—Na4iv	2.394 (4)
Mo4—O11B	1.916 (3)	O45T—Na6viii	2.363 (4)
Mo5—O11B	1.935 (3)	O1W—H1A	0.87 (3)
Mo5—O12B	1.947 (3)	O1W—H1B	0.84 (3)
Mo6—O12B	1.906 (3)	O2W—H2A	0.86 (3)
Mo7—O31B	2.072 (3)	O2W—H2B	0.87 (3)
Mo12—O31B	2.090 (3)	O3W—Na3iii	2.424 (4)
Mo7—O32B	1.899 (3)	O3W—H3A	0.87 (3)
Mo8—O32B	1.935 (3)	O3W—H3B	0.86 (3)
Mo8—O33B	1.959 (3)	O4W—Na3ix	2.299 (4)
Mo9—O33B	1.932 (3)	O4W—Na4ix	2.330 (4)
Mo9—O34B	1.925 (3)	O4W—H4A	0.88 (3)
Mo10—O34B	1.961 (3)	O4W—H4B	0.82 (3)
Mo10—O35B	1.988 (3)	O5W—Na6viii	2.436 (5)
Mo11—O35B	1.947 (3)	O5W—H5A	0.85 (3)
Mo11—O36B	1.970 (3)	O5W—H5B	0.81 (3)
Mo12—O36B	1.870 (3)	O6W—H6A	0.86 (3)
Pt1—O1C	1.978 (3)	O6W—H6B	0.87 (3)
Pt1—O6C	1.980 (3)	O7W—H7A	0.82 (3)
Pt1—O2C	1.984 (3)	O7W—H7B	0.82 (3)
Pt1—O3C	1.992 (3)	O8W—H8A	0.87 (3)
Pt1—O4C	2.018 (3)	O8W—H8B	0.87 (3)
Pt1—O5C	2.029 (3)	O9W—Na4ix	2.395 (4)
Pt1—Mo1	3.1985 (4)	O9W—H9A	0.83 (3)
Pt2—O29C	1.977 (3)	O9W—H9B	0.86 (3)
Pt2—O25C	1.993 (3)	O10W—Na4x	2.428 (5)
Pt2—O30C	1.995 (3)	O10W—H10A	0.84 (3)
Pt2—O26C	2.002 (3)	O10W—H10B	0.86 (3)
Pt2—O28C	2.006 (3)	O11W—Na4ix	2.534 (4)
Pt2—O27C	2.011 (3)	O11W—H11A	0.85 (3)
Mo1—O15T	1.707 (3)	O11W—H11B	0.85 (3)
Mo1—O16T	1.734 (3)	O12W—Na5xi	2.373 (4)
Mo2—O18T	1.696 (3)	O12W—H12A	0.9800
Mo2—O17T	1.729 (3)	O12W—H12B	0.9800
Mo3—O20T	1.698 (3)	O13W—H13A	0.9900
Mo3—O19T	1.713 (3)	O13W—H13B	0.9900
Mo4—O21T	1.697 (3)	O14W—Na5xi	2.478 (4)
Mo4—O22T	1.708 (3)	O14W—H14A	0.9799
Mo5—O24T	1.697 (3)	O14W—H14B	0.9801
Mo5—O23T	1.701 (3)	O15W—O11Wxi	2.738 (5)
Mo6—O13T	1.696 (3)	O15W—O19W	2.738 (5)
Mo6—O14T	1.696 (3)	O15W—H15A	0.83 (3)
Mo7—O39T	1.695 (3)	O15W—H15B	0.86 (3)
Mo7—O40T	1.697 (4)	O16W—Na6xi	2.386 (5)
Mo8—O42T	1.696 (3)	O16W—O24Wi	2.842 (6)
Mo8—O41T	1.696 (3)	O16W—O7Bi	3.068 (6)
Mo9—O44T	1.688 (3)	O16W—H16A	0.89 (3)
Mo9—O43T	1.719 (3)	O16W—H16B	0.85 (3)
Mo10—O46T	1.693 (3)	O17W—H17A	0.81 (3)
Mo10—O45T	1.701 (3)	O17W—H17B	0.84 (3)
Mo10—Mo11	3.2096 (5)	O18W—Na5xii	2.322 (4)
Mo11—O47T	1.699 (3)	O18W—H18A	0.83 (3)
Mo11—O48T	1.735 (3)	O18W—H18B	0.81 (3)
Mo12—O37T	1.694 (3)	O19W—H19A	0.85 (3)
Mo12—O38T	1.750 (3)	O19W—H19B	0.80 (3)
Na1—O24T	2.326 (4)	O20W—Na6xi	2.437 (6)
Na1—O6W	2.349 (4)	O20W—H20A	0.88 (3)
Na1—O2W	2.377 (4)	O20W—H20B	0.85 (3)
Na1—O1W	2.380 (4)	O21W—H21A	0.89 (3)
Na1—O19W	2.443 (4)	O21W—H21B	0.86 (3)
Na1—O13Ti	2.483 (4)	O22W—H22A	0.88 (3)
Na2—O15Ti	2.369 (4)	O22W—H22B	0.85 (3)
Na2—O7W	2.377 (4)	O23W—H23A	0.87 (3)
Na2—O6W	2.388 (4)	O23W—H23B	0.85 (3)
Na2—O15W	2.393 (4)	O24W—H24A	0.84 (3)
Na2—O8W	2.408 (4)	O24W—H24B	0.89 (3)
Na2—O2W	2.434 (4)	O25W—H25A	0.83 (3)
Na3—O4Wii	2.299 (4)	O25W—H25B	0.86 (3)
Na3—O3W	2.347 (4)	O26W—H26A	0.87 (3)
Na3—O20T	2.348 (4)	O26W—H26B	0.87 (3)
Na3—O21Tiii	2.379 (4)	O27W—H27A	0.86 (3)
Na3—O13W	2.390 (4)	O27W—H27B	0.87 (3)
Na3—O3Wiii	2.424 (4)	O28W—H28A	0.86 (3)
Na3—Na3iii	3.379 (4)	O28W—H28B	0.86 (3)
Na4—O4Wii	2.330 (4)	O29W—H29A	0.86 (3)
Na4—O42Tiv	2.394 (4)	O29W—H29B	0.84 (3)
Na4—O9Wii	2.395 (4)
Mo1—O1C—Mo6	104.42 (13)	O46T—Mo10—O35B	101.20 (15)
Mo1—O2C—Mo2	93.27 (12)	O45T—Mo10—O35B	94.06 (15)
Mo2—O3C—Mo3	92.61 (11)	O34B—Mo10—O35B	152.77 (13)
Mo3—O4C—Mo4	94.36 (12)	O46T—Mo10—O29C	93.58 (15)
Mo5—O5C—Mo4	93.05 (11)	O45T—Mo10—O29C	157.99 (15)
Mo6—O6C—Mo5	91.98 (11)	O34B—Mo10—O29C	86.01 (12)
Mo6—O7B—Mo1	109.51 (15)	O35B—Mo10—O29C	73.14 (12)
Mo1—O8B—Mo2	115.01 (15)	O46T—Mo10—O28C	161.08 (15)
Mo2—O9B—Mo3	117.38 (16)	O45T—Mo10—O28C	90.14 (15)
Mo3—O10B—Mo4	118.97 (16)	O34B—Mo10—O28C	70.72 (12)
Mo4—O11B—Mo5	119.86 (16)	O35B—Mo10—O28C	85.87 (12)
Mo6—O12B—Mo5	120.24 (16)	O29C—Mo10—O28C	71.49 (11)
Mo12—O25C—Mo7	104.38 (13)	O46T—Mo10—Mo11	88.46 (12)
Mo7—O26C—Mo8	92.23 (11)	O45T—Mo10—Mo11	128.96 (12)
Mo8—O27C—Mo9	93.67 (11)	O34B—Mo10—Mo11	127.13 (9)
Mo10—O28C—Mo9	93.85 (11)	O35B—Mo10—Mo11	34.92 (9)
Mo11—O29C—Mo10	96.01 (12)	O29C—Mo10—Mo11	41.12 (8)
Mo12—O30C—Mo11	90.63 (11)	O28C—Mo10—Mo11	87.55 (8)
Mo7—O31B—Mo12	108.35 (15)	O47T—Mo11—O48T	105.57 (15)
Mo7—O32B—Mo8	119.84 (16)	O47T—Mo11—O35B	101.45 (15)
Mo9—O33B—Mo8	118.01 (15)	O48T—Mo11—O35B	95.26 (14)
Mo9—O34B—Mo10	120.01 (16)	O47T—Mo11—O36B	97.92 (15)
Mo11—O35B—Mo10	109.31 (15)	O48T—Mo11—O36B	97.46 (14)
Mo12—O36B—Mo11	120.93 (15)	O35B—Mo11—O36B	153.01 (13)
O1C—Pt1—O6C	82.75 (13)	O47T—Mo11—O29C	97.13 (14)
O1C—Pt1—O2C	83.08 (12)	O48T—Mo11—O29C	156.88 (14)
O6C—Pt1—O2C	98.53 (13)	O35B—Mo11—O29C	75.62 (12)
O1C—Pt1—O3C	98.76 (13)	O36B—Mo11—O29C	83.51 (12)
O6C—Pt1—O3C	177.87 (12)	O47T—Mo11—O30C	165.79 (14)
O2C—Pt1—O3C	83.17 (13)	O48T—Mo11—O30C	86.13 (14)
O1C—Pt1—O4C	178.01 (12)	O35B—Mo11—O30C	85.13 (12)
O6C—Pt1—O4C	95.27 (13)	O36B—Mo11—O30C	72.13 (12)
O2C—Pt1—O4C	97.15 (13)	O29C—Mo11—O30C	72.11 (11)
O3C—Pt1—O4C	83.22 (13)	O47T—Mo11—Mo10	90.36 (11)
O1C—Pt1—O5C	97.43 (12)	O48T—Mo11—Mo10	131.02 (11)
O6C—Pt1—O5C	82.98 (13)	O35B—Mo11—Mo10	35.77 (9)
O2C—Pt1—O5C	178.47 (12)	O36B—Mo11—Mo10	126.38 (9)
O3C—Pt1—O5C	95.32 (13)	O29C—Mo11—Mo10	42.87 (8)
O4C—Pt1—O5C	82.39 (13)	O30C—Mo11—Mo10	87.77 (7)
O1C—Pt1—Mo1	40.13 (8)	O37T—Mo12—O38T	105.28 (16)
O6C—Pt1—Mo1	93.90 (9)	O37T—Mo12—O36B	102.09 (16)
O2C—Pt1—Mo1	43.18 (9)	O38T—Mo12—O36B	102.12 (15)
O3C—Pt1—Mo1	88.22 (9)	O37T—Mo12—O25C	95.72 (14)
O4C—Pt1—Mo1	140.25 (9)	O38T—Mo12—O25C	152.97 (13)
O5C—Pt1—Mo1	137.18 (9)	O36B—Mo12—O25C	89.63 (12)
O29C—Pt2—O25C	97.99 (13)	O37T—Mo12—O31B	97.63 (15)
O29C—Pt2—O30C	83.50 (13)	O38T—Mo12—O31B	88.31 (14)
O25C—Pt2—O30C	83.64 (12)	O36B—Mo12—O31B	154.25 (13)
O29C—Pt2—O26C	177.72 (12)	O25C—Mo12—O31B	71.95 (12)
O25C—Pt2—O26C	81.67 (12)	O37T—Mo12—O30C	168.56 (14)
O30C—Pt2—O26C	98.68 (13)	O38T—Mo12—O30C	86.14 (14)
O29C—Pt2—O28C	82.62 (13)	O36B—Mo12—O30C	74.22 (12)
O25C—Pt2—O28C	178.26 (11)	O25C—Mo12—O30C	73.62 (11)
O30C—Pt2—O28C	98.06 (13)	O31B—Mo12—O30C	83.21 (12)
O26C—Pt2—O28C	97.66 (13)	O24T—Na1—O6W	169.39 (16)
O29C—Pt2—O27C	95.84 (13)	O24T—Na1—O2W	91.74 (14)
O25C—Pt2—O27C	96.06 (12)	O6W—Na1—O2W	90.55 (14)
O30C—Pt2—O27C	179.23 (13)	O24T—Na1—O1W	87.12 (14)
O26C—Pt2—O27C	81.97 (13)	O6W—Na1—O1W	91.11 (14)
O28C—Pt2—O27C	82.25 (12)	O2W—Na1—O1W	176.82 (17)
O15T—Mo1—O16T	105.41 (15)	O24T—Na1—O19W	99.77 (14)
O15T—Mo1—O8B	100.56 (15)	O6W—Na1—O19W	90.84 (14)
O16T—Mo1—O8B	101.85 (15)	O2W—Na1—O19W	79.87 (14)
O15T—Mo1—O7B	95.79 (15)	O1W—Na1—O19W	97.40 (15)
O16T—Mo1—O7B	88.94 (15)	O24T—Na1—O13Ti	82.35 (14)
O8B—Mo1—O7B	157.14 (13)	O6W—Na1—O13Ti	87.56 (14)
O15T—Mo1—O1C	91.61 (14)	O2W—Na1—O13Ti	84.58 (13)
O16T—Mo1—O1C	155.61 (13)	O1W—Na1—O13Ti	98.20 (14)
O8B—Mo1—O1C	91.78 (13)	O19W—Na1—O13Ti	164.35 (15)
O7B—Mo1—O1C	71.77 (12)	O15Ti—Na2—O7W	91.66 (14)
O15T—Mo1—O2C	165.40 (14)	O15Ti—Na2—O6W	95.56 (13)
O16T—Mo1—O2C	89.18 (14)	O7W—Na2—O6W	91.55 (14)
O8B—Mo1—O2C	75.40 (12)	O15Ti—Na2—O15W	171.51 (15)
O7B—Mo1—O2C	84.78 (13)	O7W—Na2—O15W	96.52 (14)
O1C—Mo1—O2C	74.66 (11)	O6W—Na2—O15W	82.00 (13)
O15T—Mo1—Pt1	128.03 (11)	O15Ti—Na2—O8W	92.83 (13)
O16T—Mo1—Pt1	125.74 (11)	O7W—Na2—O8W	90.84 (14)
O8B—Mo1—Pt1	79.21 (9)	O6W—Na2—O8W	171.21 (15)
O7B—Mo1—Pt1	78.14 (9)	O15W—Na2—O8W	89.33 (13)
O1C—Mo1—Pt1	37.08 (8)	O15Ti—Na2—O2W	91.24 (14)
O2C—Mo1—Pt1	37.78 (8)	O7W—Na2—O2W	177.09 (15)
O18T—Mo2—O17T	105.58 (15)	O6W—Na2—O2W	88.28 (14)
O18T—Mo2—O9B	100.97 (15)	O15W—Na2—O2W	80.57 (14)
O17T—Mo2—O9B	99.27 (14)	O8W—Na2—O2W	88.91 (14)
O18T—Mo2—O8B	95.89 (15)	O4Wii—Na3—O3W	174.07 (17)
O17T—Mo2—O8B	99.65 (14)	O4Wii—Na3—O20T	87.99 (15)
O9B—Mo2—O8B	150.17 (13)	O3W—Na3—O20T	87.55 (14)
O18T—Mo2—O3C	88.95 (14)	O4Wii—Na3—O21Tiii	103.88 (16)
O17T—Mo2—O3C	164.86 (13)	O3W—Na3—O21Tiii	80.97 (14)
O9B—Mo2—O3C	73.24 (12)	O20T—Na3—O21Tiii	166.84 (15)
O8B—Mo2—O3C	82.72 (12)	O4Wii—Na3—O13W	86.52 (14)
O18T—Mo2—O2C	158.87 (14)	O3W—Na3—O13W	96.38 (14)
O17T—Mo2—O2C	94.25 (14)	O20T—Na3—O13W	78.05 (13)
O9B—Mo2—O2C	82.57 (13)	O21Tiii—Na3—O13W	96.75 (14)
O8B—Mo2—O2C	73.23 (12)	O4Wii—Na3—O3Wiii	87.20 (14)
O3C—Mo2—O2C	71.99 (11)	O3W—Na3—O3Wiii	89.82 (14)
O20T—Mo3—O19T	106.27 (17)	O20T—Na3—O3Wiii	101.04 (14)
O20T—Mo3—O10B	101.86 (15)	O21Tiii—Na3—O3Wiii	85.43 (14)
O19T—Mo3—O10B	99.45 (15)	O13W—Na3—O3Wiii	173.68 (16)
O20T—Mo3—O9B	97.79 (15)	O4Wii—Na4—O42Tiv	156.09 (16)
O19T—Mo3—O9B	100.12 (15)	O4Wii—Na4—O9Wii	92.04 (16)
O10B—Mo3—O9B	147.01 (13)	O42Tiv—Na4—O9Wii	102.56 (15)
O20T—Mo3—O4C	91.34 (15)	O4Wii—Na4—O10Wv	83.94 (16)
O19T—Mo3—O4C	161.54 (14)	O42Tiv—Na4—O10Wv	85.19 (15)
O10B—Mo3—O4C	70.87 (12)	O9Wii—Na4—O10Wv	167.83 (18)
O9B—Mo3—O4C	82.51 (13)	O4Wii—Na4—O13W	83.45 (14)
O20T—Mo3—O3C	159.41 (15)	O42Tiv—Na4—O13W	78.16 (13)
O19T—Mo3—O3C	92.80 (14)	O9Wii—Na4—O13W	88.64 (15)
O10B—Mo3—O3C	82.12 (12)	O10Wv—Na4—O13W	102.26 (16)
O9B—Mo3—O3C	70.67 (12)	O4Wii—Na4—O11Wii	123.93 (15)
O4C—Mo3—O3C	70.67 (11)	O42Tiv—Na4—O11Wii	74.82 (13)
O21T—Mo4—O22T	106.64 (17)	O9Wii—Na4—O11Wii	92.35 (14)
O21T—Mo4—O11B	97.82 (16)	O10Wv—Na4—O11Wii	80.51 (15)
O22T—Mo4—O11B	102.09 (15)	O13W—Na4—O11Wii	152.51 (14)
O21T—Mo4—O10B	101.48 (15)	O18Wvi—Na5—O41T	169.60 (16)
O22T—Mo4—O10B	96.38 (15)	O18Wvi—Na5—O12Wvii	106.16 (18)
O11B—Mo4—O10B	148.14 (13)	O41T—Na5—O12Wvii	81.20 (16)
O21T—Mo4—O4C	93.57 (15)	O18Wvi—Na5—O39Tiv	92.76 (15)
O22T—Mo4—O4C	157.85 (14)	O41T—Na5—O39Tiv	79.54 (14)
O11B—Mo4—O4C	83.58 (13)	O12Wvii—Na5—O39Tiv	91.39 (15)
O10B—Mo4—O4C	70.20 (12)	O18Wvi—Na5—O17W	93.24 (15)
O21T—Mo4—O5C	161.20 (15)	O41T—Na5—O17W	80.61 (13)
O22T—Mo4—O5C	90.59 (14)	O12Wvii—Na5—O17W	159.22 (19)
O11B—Mo4—O5C	70.61 (12)	O39Tiv—Na5—O17W	95.08 (14)
O10B—Mo4—O5C	83.57 (12)	O18Wvi—Na5—O14Wvii	97.57 (14)
O4C—Mo4—O5C	70.91 (11)	O41T—Na5—O14Wvii	90.15 (14)
O24T—Mo5—O23T	106.92 (18)	O12Wvii—Na5—O14Wvii	86.13 (15)
O24T—Mo5—O11B	97.36 (16)	O39Tiv—Na5—O14Wvii	169.66 (15)
O23T—Mo5—O11B	101.02 (16)	O17W—Na5—O14Wvii	83.98 (13)
O24T—Mo5—O12B	101.20 (15)	O45Tviii—Na6—O16Wvii	84.88 (15)
O23T—Mo5—O12B	99.38 (15)	O45Tviii—Na6—O5W	94.17 (14)
O11B—Mo5—O12B	146.97 (13)	O16Wvii—Na6—O5W	177.0 (2)
O24T—Mo5—O5C	157.91 (15)	O45Tviii—Na6—O44T	171.00 (16)
O23T—Mo5—O5C	93.95 (15)	O16Wvii—Na6—O44T	97.15 (15)
O11B—Mo5—O5C	71.01 (12)	O5W—Na6—O44T	83.36 (14)
O12B—Mo5—O5C	81.93 (12)	O45Tviii—Na6—O5Wviii	86.65 (14)
O24T—Mo5—O6C	90.40 (15)	O16Wvii—Na6—O5Wviii	93.72 (18)
O23T—Mo5—O6C	161.60 (15)	O5W—Na6—O5Wviii	83.36 (15)
O11B—Mo5—O6C	82.37 (12)	O44T—Na6—O5Wviii	84.47 (14)
O12B—Mo5—O6C	70.49 (12)	O45Tviii—Na6—O20Wvii	101.56 (18)
O5C—Mo5—O6C	69.85 (11)	O16Wvii—Na6—O20Wvii	81.7 (2)
O13T—Mo6—O14T	107.19 (18)	O5W—Na6—O20Wvii	101.3 (2)
O13T—Mo6—O12B	100.66 (15)	O44T—Na6—O20Wvii	87.42 (18)
O14T—Mo6—O12B	103.65 (15)	O5Wviii—Na6—O20Wvii	170.2 (2)
O13T—Mo6—O7B	98.18 (15)	Pt1—O1C—Mo1	102.79 (13)
O14T—Mo6—O7B	90.40 (15)	Pt1—O1C—Mo6	104.47 (13)
O12B—Mo6—O7B	151.86 (13)	Pt1—O2C—Mo1	99.04 (13)
O13T—Mo6—O1C	93.47 (15)	Pt1—O2C—Mo2	102.52 (14)
O14T—Mo6—O1C	153.85 (15)	Pt1—O2C—O30C	116.35 (16)
O12B—Mo6—O1C	87.60 (12)	Pt1—O3C—Mo2	102.31 (13)
O7B—Mo6—O1C	70.51 (12)	Pt1—O3C—Mo3	102.23 (13)
O13T—Mo6—O6C	163.39 (15)	Pt1—O4C—Mo3	103.81 (13)
O14T—Mo6—O6C	89.30 (15)	Pt1—O4C—Mo4	104.05 (13)
O12B—Mo6—O6C	72.79 (12)	Pt1—O5C—Mo5	104.17 (14)
O7B—Mo6—O6C	83.29 (12)	Pt1—O5C—Mo4	102.66 (13)
O1C—Mo6—O6C	71.32 (11)	Pt1—O6C—Mo6	101.23 (13)
O39T—Mo7—O40T	107.31 (19)	Pt1—O6C—Mo5	103.00 (13)
O39T—Mo7—O32B	101.06 (15)	Pt2—O25C—Mo12	105.47 (13)
O40T—Mo7—O32B	104.07 (15)	Pt2—O25C—Mo7	105.62 (13)
O39T—Mo7—O31B	97.15 (15)	Mo1—O2C—O30C	122.10 (17)
O40T—Mo7—O31B	89.78 (15)	Mo2—O2C—O30C	119.13 (16)
O32B—Mo7—O31B	152.51 (13)	Pt2—O26C—Mo7	101.33 (13)
O39T—Mo7—O25C	93.78 (15)	Pt2—O26C—Mo8	103.45 (13)
O40T—Mo7—O25C	152.78 (15)	Pt2—O27C—Mo8	104.35 (13)
O32B—Mo7—O25C	88.06 (13)	Pt2—O27C—Mo9	103.89 (13)
O31B—Mo7—O25C	70.25 (12)	Pt2—O28C—Mo10	100.58 (13)
O39T—Mo7—O26C	163.50 (15)	Pt2—O28C—Mo9	103.89 (13)
O40T—Mo7—O26C	89.09 (15)	Pt2—O29C—Mo11	106.63 (14)
O32B—Mo7—O26C	72.35 (12)	Pt2—O29C—Mo10	105.30 (13)
O31B—Mo7—O26C	84.45 (12)	Pt2—O30C—Mo12	96.59 (13)
O25C—Mo7—O26C	71.22 (11)	Pt2—O30C—Mo11	97.72 (13)
O42T—Mo8—O41T	107.11 (17)	Pt2—O30C—O2C	117.78 (16)
O42T—Mo8—O32B	98.16 (15)	Mo12—O30C—O2C	124.51 (17)
O41T—Mo8—O32B	102.73 (15)	Mo11—O30C—O2C	122.82 (16)
O42T—Mo8—O33B	99.95 (15)	H1A—O1W—H1B	109 (4)
O41T—Mo8—O33B	96.08 (15)	H2A—O2W—H2B	104 (3)
O32B—Mo8—O33B	148.67 (13)	H3A—O3W—H3B	110 (4)
O42T—Mo8—O27C	93.34 (14)	H4A—O4W—H4B	110 (4)
O41T—Mo8—O27C	157.72 (15)	H5A—O5W—H5B	111 (4)
O32B—Mo8—O27C	82.48 (12)	H6A—O6W—H6B	107 (3)
O33B—Mo8—O27C	71.16 (12)	H7A—O7W—H7B	112 (4)
O42T—Mo8—O26C	161.29 (14)	H8A—O8W—H8B	105 (3)
O41T—Mo8—O26C	90.66 (15)	H9A—O9W—H9B	113 (4)
O32B—Mo8—O26C	71.58 (12)	H10A—O10W—H10B	112 (4)
O33B—Mo8—O26C	83.51 (12)	H11A—O11W—H11B	111 (4)
O27C—Mo8—O26C	70.22 (11)	H12A—O12W—H12B	109.5
O44T—Mo9—O43T	105.42 (16)	H13A—O13W—H13B	110.8
O44T—Mo9—O34B	101.22 (15)	H14A—O14W—H14B	109.5
O43T—Mo9—O34B	97.29 (15)	H15A—O15W—H15B	115 (4)
O44T—Mo9—O33B	98.74 (15)	H16A—O16W—H16B	105 (4)
O43T—Mo9—O33B	101.57 (15)	H17A—O17W—H17B	115 (4)
O34B—Mo9—O33B	147.68 (13)	H18A—O18W—H18B	112 (4)
O44T—Mo9—O27C	159.33 (14)	H19A—O19W—H19B	112 (4)
O43T—Mo9—O27C	94.36 (14)	H20A—O20W—H20B	111 (5)
O34B—Mo9—O27C	81.75 (12)	H21A—O21W—H21B	105 (4)
O33B—Mo9—O27C	70.92 (12)	H22A—O22W—H22B	108 (4)
O44T—Mo9—O28C	91.45 (14)	H23A—O23W—H23B	106 (4)
O43T—Mo9—O28C	161.38 (14)	H24A—O24W—H24B	108 (4)
O34B—Mo9—O28C	71.21 (12)	H25A—O25W—H25B	111 (4)
O33B—Mo9—O28C	83.19 (12)	H26A—O26W—H26B	107 (4)
O27C—Mo9—O28C	69.96 (11)	H27A—O27W—H27B	109 (4)
O46T—Mo10—O45T	106.66 (18)	H28A—O28W—H28B	107 (4)
O46T—Mo10—O34B	97.33 (15)	H29A—O29W—H29B	110 (4)
O45T—Mo10—O34B	99.56 (15)

Symmetry codes: (i) −x+1, −y+1, −z+1; (ii) x, y+1, z; (iii) −x, −y+2, −z+1; (iv) −x, −y+2, −z; (v) x−1, y+1, z; (vi) x, y+1, z−1; (vii) x, y, z−1; (viii) −x+1, −y+1, −z; (ix) x, y−1, z; (x) x+1, y−1, z; (xi) x, y, z+1; (xii) x, y−1, z+1.

Hydrogen-bond geometry (Å, º)

D—H···A	D—H	H···A	D···A	D—H···A
O2C—H2···O30C	0.86 (3)	1.84 (6)	2.595 (5)	145 (9)
O3C—H3···O14Wxiii	0.86 (3)	1.74 (3)	2.586 (5)	164 (4)
O4C—H4···O38T	0.85 (3)	1.72 (3)	2.576 (4)	178 (5)
O5C—H5···O29W	0.86 (3)	1.79 (3)	2.595 (5)	156 (5)
O6C—H6···O48T	0.86 (3)	1.72 (3)	2.569 (4)	171 (5)
O7B—H7···O35B	0.84 (3)	1.94 (3)	2.785 (5)	175 (5)
O26C—H26···O17T	0.82 (3)	1.73 (3)	2.556 (4)	178 (5)
O27C—H27···O15Wxiv	0.87 (3)	1.70 (3)	2.548 (5)	164 (5)
O28C—H28···O16T	0.86 (3)	1.73 (3)	2.575 (4)	166 (5)
O30C—H30···O2C	0.84 (3)	1.76 (3)	2.595 (5)	172 (9)
O31B—H31···O9B	0.82 (3)	1.95 (3)	2.763 (4)	171 (5)
O1W—H1A···O36Bxiv	0.87 (3)	1.96 (3)	2.830 (5)	173 (5)
O1W—H1B···O48T	0.84 (3)	2.22 (3)	3.023 (5)	161 (5)
O2W—H2A···O16W	0.86 (3)	1.87 (3)	2.731 (6)	175 (5)
O2W—H2B···O43Txi	0.87 (3)	2.17 (3)	3.031 (5)	169 (5)
O3W—H3A···O22W	0.87 (3)	2.10 (3)	2.969 (6)	175 (5)
O3W—H3B···O38T	0.86 (3)	2.13 (3)	2.980 (5)	176 (5)
O4W—H4A···O26W	0.88 (3)	1.98 (3)	2.857 (6)	175 (5)
O4W—H4B···O25W	0.82 (3)	1.99 (3)	2.806 (6)	176 (6)
O5W—H5A···O16T	0.85 (3)	2.08 (3)	2.930 (5)	178 (6)
O6W—H6A···O25Cxiv	0.86 (3)	2.04 (3)	2.880 (5)	167 (5)
O6W—H6B···O18W	0.87 (3)	1.97 (3)	2.831 (6)	173 (5)
O7W—H7A···O17Wxii	0.82 (3)	1.98 (3)	2.804 (5)	175 (6)
O7W—H7B···O32Bxiv	0.82 (3)	2.02 (3)	2.842 (5)	174 (5)
O8W—H8A···O34Bxi	0.87 (3)	2.21 (3)	3.064 (5)	168 (5)
O8W—H8B···O9Wxi	0.87 (3)	1.89 (3)	2.750 (6)	169 (5)
O9W—H9A···O19Tix	0.83 (3)	2.22 (3)	3.046 (5)	178 (5)
O9W—H9B···O7Wvii	0.86 (3)	1.91 (3)	2.720 (5)	156 (6)
O10W—H10A···O25Wxv	0.84 (3)	2.23 (4)	2.924 (7)	140 (5)
O10W—H10B···O21Wi	0.86 (3)	2.02 (3)	2.874 (7)	174 (7)
O11W—H11A···O34B	0.85 (3)	1.93 (3)	2.723 (5)	155 (5)
O11W—H11B···O43Txvi	0.85 (3)	2.08 (3)	2.867 (5)	154 (5)
O12W—H12A···O22T	0.98	2.25	2.904 (5)	123
O12W—H12A···O21W	0.98	2.31	3.141 (8)	142
O13W—H13A···O12Wiii	0.99	1.80	2.766 (6)	164
O13W—H13B···O31B	0.99	2.53	3.396 (5)	146
O14W—H14A···O27Wxi	0.98	1.76	2.737 (6)	177
O14W—H14B···O23W	0.98	1.96	2.796 (6)	142
O15W—H15A···O19W	0.83 (3)	1.97 (3)	2.738 (5)	154 (5)
O16W—H16A···O20W	0.89 (3)	2.45 (6)	3.156 (7)	137 (7)
O16W—H16B···O24Wi	0.85 (3)	2.17 (6)	2.842 (6)	136 (6)
O17W—H17A···O8Bxvii	0.81 (3)	1.98 (3)	2.790 (5)	173 (5)
O17W—H17B···O17T	0.84 (3)	2.22 (3)	3.027 (5)	160 (5)
O18W—H18A···O28W	0.83 (3)	2.18 (4)	2.907 (5)	146 (5)
O18W—H18B···O1Ci	0.81 (3)	1.99 (3)	2.798 (5)	176 (5)
O19W—H19A···O29Cxiv	0.85 (3)	2.01 (3)	2.842 (5)	164 (5)
O19W—H19B···O10Wi	0.80 (3)	2.14 (3)	2.920 (6)	164 (6)
O20W—H20B···O23W	0.85 (3)	2.46 (7)	3.121 (8)	135 (8)
O21W—H21A···O23T	0.89 (3)	2.24 (4)	3.064 (6)	155 (7)
O21W—H21B···O33Bxi	0.86 (3)	2.17 (3)	2.972 (5)	155 (6)
O22W—H22A···O28Wxiv	0.88 (3)	2.28 (5)	3.007 (6)	140 (5)
O22W—H22B···O26Wxiv	0.85 (3)	1.96 (3)	2.805 (7)	169 (6)
O23W—H23A···O22T	0.87 (3)	2.30 (5)	2.970 (6)	134 (6)
O23W—H23B···O10Bxiii	0.85 (3)	1.95 (3)	2.775 (5)	162 (7)
O24W—H24A···O28W	0.84 (3)	2.02 (3)	2.854 (6)	173 (6)
O24W—H24B···O35B	0.89 (3)	2.05 (3)	2.911 (5)	163 (5)
O25W—H25A···O38Txiv	0.83 (3)	2.52 (6)	3.119 (6)	130 (7)
O25W—H25B···O47T	0.86 (3)	2.01 (3)	2.834 (5)	161 (7)
O26W—H26A···O24W	0.87 (3)	1.93 (5)	2.723 (6)	150 (7)
O26W—H26B···O19Tix	0.87 (3)	2.23 (4)	2.920 (5)	135 (5)
O27W—H27A···O18Txvii	0.86 (3)	2.33 (5)	2.945 (5)	129 (5)
O27W—H27B···O33B	0.87 (3)	2.10 (4)	2.846 (5)	144 (5)
O28W—H28A···O12Bi	0.86 (3)	1.93 (3)	2.775 (5)	168 (6)
O28W—H28B···O1W	0.86 (3)	1.96 (3)	2.817 (6)	171 (6)
O29W—H29A···O22Txiii	0.86 (3)	2.26 (5)	2.895 (5)	131 (5)
O29W—H29B···O22Wxv	0.84 (3)	2.03 (3)	2.844 (6)	165 (7)

Symmetry codes: (i) −x+1, −y+1, −z+1; (iii) −x, −y+2, −z+1; (vii) x, y, z−1; (ix) x, y−1, z; (xi) x, y, z+1; (xii) x, y−1, z+1; (xiii) −x+1, −y+2, −z+1; (xiv) −x, −y+1, −z+1; (xv) x+1, y, z; (xvi) −x, −y+1, −z; (xvii) −x+1, −y+2, −z.