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Acta Cryst. (2017). C73, 47-51
https://doi.org/10.1107/S2053229616019422
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Polymeric structure of a coproporphyrin I ruthenium(II) complex: a powder diffraction study

S. V. Andreev, S. A. Zverev, I. A. Zamilatskov, N. M. Kurochkina, G. V. Ponomarev, A. N. Fitch and V. V. Chernyshev
Porphyrin complexes of ruthenium are widely used as models for the heme protein system, for modelling naturally occurring iron–porphyrin systems and as catalysts in epoxidation reactions. The structural diversity of ruthenium complexes offers an opportunity to use them in the design of multifunctional supra­molecular assemblies. Coproporphyrins and metallocoproporphyrins are used as sensors in bioassay and the potential use of derivatives as multiparametric sensors for oxygen and H+ is one of the main factors driving a growing inter­est in the synthesis of new porphyrin derivatives. In the co­proporphyrin I RuII complex catena-poly[[carbonyl­ruthenium(II)]-μ-2,7,12,17-tetra­kis­[2-(eth­oxy­carbon­yl)eth­yl]-3,8,13,18-tetra­methyl­porphyrinato-κ5N,N′,N′′,N′′′:O], [Ru(C44H52N4O8)(CO)]n, the RuII centre is coordinated by four N atoms in the basal plane, and by axial C (carbonyl ligand) and O (eth­oxy­carbonyl­ethyl arm from a neighbouring complex) atoms. The complex adopts a distorted octa­hedral geometry. Self-assembly of the mol­ecules during crystallization from a methyl­ene chloride–ethanol (1:10 v/v) solution at room temperature gives one-dimensional polymeric chains.
Keywords: coproporphyrin I; ruthenium(II) complex; one-dimensional coordination polymer; synchrotron powder diffraction; computational chemistry; mol­ecular cavity.
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Supporting information

cif

Crystallographic Information File (CIF) https://doi.org/10.1107/S2053229616019422/fa3396sup1.cif
Contains datablock I

rtv

Rietveld powder data file (CIF format) https://doi.org/10.1107/S2053229616019422/fa3396Isup2.rtv
Contains datablock I

pdf

Portable Document Format (PDF) file https://doi.org/10.1107/S2053229616019422/fa3396sup3.pdf
Absorption electronic, NMR and mass spectra for the final product

CCDC reference: 1520660

Computing details top

Cell refinement: MRIA (Zlokazov & Chernyshev, 1992); program(s) used to solve structure: MRIA (Zlokazov & Chernyshev, 1992) and FOX (Favre-Nicolin & Cerný, 2004); program(s) used to refine structure: MRIA (Zlokazov & Chernyshev, 1992); molecular graphics: PLATON (Spek, 2009) and Mercury (Macrae et al., 2008); software used to prepare material for publication: SHELXL97 (Sheldrick, 2008) and publCIF (Westrip, 2010).

catena-Poly[[carbonylruthenium(II)]-µ-2,7,12,17-tetrakis[2-(ethoxycarbonyl)ethyl]-3,8,13,18-tetramethylporphyrinato-κ5N,N',N'',N''':O] top
Crystal data top
[Ru(C44H52N4O8)(CO)]F(000) = 3728
Mr = 893.98Dx = 1.401 Mg m3
Monoclinic, C2/cSynchrotron radiation, λ = 0.399927(2) Å
Hall symbol: -C 2ycµ = 0.09 mm1
a = 39.3876 (19) ÅT = 295 K
b = 9.6153 (8) ÅParticle morphology: no specific habit
c = 29.5299 (16) Åcolorless
β = 130.719 (7)°cylinder, 15 × 1.0 mm
V = 8476.3 (9) Å3Specimen preparation: Prepared at 295 K and 101 kPa
Z = 8
Data collection top
ESRF powder
diffractometer ID22		Data collection mode: transmission
Radiation source: ID22 bending magnet at ESRF, synchrotron radiationScan method: continuous
Si 111 double crystal monochromator2θmin = 1.000°, 2θmax = 20.000°, 2θstep = 0.002°
Specimen mounting: Specimen was sealed in a 1.0 mm diameter borosilicate glass capillary
Refinement top
Refinement on Inet247 parameters
Least-squares matrix: full with fixed elements per cycle193 restraints
Rp = 0.03121 constraints
Rwp = 0.040H-atom parameters not refined
Rexp = 0.013Weighting scheme based on measured s.u.'s
RBragg = 0.070(Δ/σ)max = 0.003
9501 data pointsBackground function: Chebyshev polynomial up to the 5th order
Profile function: split-type pseudo-VoigtPreferred orientation correction: none
Special details top

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 (Å2) top
xyzUiso*/Ueq
Ru10.88520 (4)0.5249 (2)0.82080 (6)0.0170 (12)*
N10.9371 (3)0.3887 (14)0.8584 (5)0.034 (10)*
N20.8917 (3)0.5230 (13)0.8947 (5)0.034 (10)*
N30.8290 (3)0.6456 (15)0.7803 (5)0.034 (10)*
N40.8732 (3)0.5119 (13)0.7428 (5)0.034 (10)*
C10.9549 (4)0.3341 (19)0.8342 (6)0.034 (10)*
C20.9928 (4)0.2503 (19)0.8768 (6)0.034 (10)*
C30.9990 (4)0.2549 (18)0.9290 (7)0.034 (10)*
C40.9652 (4)0.3374 (19)0.9178 (6)0.034 (10)*
C50.9575 (4)0.3725 (18)0.9559 (5)0.034 (10)*
H50.97760.33340.99380.041*
C60.9254 (4)0.4549 (18)0.9473 (6)0.034 (10)*
C70.9209 (4)0.4849 (18)0.9914 (6)0.034 (10)*
C80.8857 (4)0.5682 (17)0.9663 (6)0.034 (10)*
C90.8675 (4)0.5963 (19)0.9058 (6)0.034 (10)*
C100.8307 (4)0.6775 (19)0.8638 (6)0.034 (10)*
H100.81670.72260.87560.041*
C110.8129 (4)0.6974 (17)0.8053 (6)0.034 (10)*
C120.7734 (4)0.7848 (19)0.7630 (6)0.034 (10)*
C130.7672 (4)0.7845 (18)0.7121 (6)0.034 (10)*
C140.8005 (4)0.6945 (18)0.7212 (6)0.034 (10)*
C150.8070 (4)0.6615 (19)0.6821 (5)0.034 (10)*
H150.78660.70080.64430.041*
C160.8397 (4)0.5778 (19)0.6906 (6)0.034 (10)*
C170.8442 (4)0.5503 (17)0.6468 (6)0.034 (10)*
C180.8800 (4)0.4628 (17)0.6723 (6)0.034 (10)*
C190.8980 (4)0.4395 (19)0.7331 (6)0.034 (10)*
C200.9356 (4)0.3604 (19)0.7753 (6)0.034 (10)*
H200.94970.31980.76280.041*
C211.0222 (5)0.1708 (18)0.8744 (7)0.034 (10)*
H21A1.02970.08740.89780.041*
H21B1.04970.22400.89540.041*
C221.0099 (4)0.126 (2)0.8183 (6)0.049 (10)*
H22A1.00480.20780.79520.059*
H22B0.98210.07440.79560.059*
C231.0462 (4)0.0347 (18)0.8273 (7)0.055 (11)*
C241.0564 (5)0.214 (2)0.8123 (6)0.069 (10)*
H24A1.03600.29200.79660.083*
H24B1.08560.24520.84780.083*
C251.0596 (5)0.168 (2)0.7667 (7)0.089 (11)*
H25A1.06990.24470.75750.134*
H25B1.08030.09250.78230.134*
H25C1.03060.13920.73110.134*
C261.0361 (4)0.1737 (18)0.9841 (6)0.034 (10)*
H26A1.05380.12750.97700.051*
H26B1.02330.10580.99300.051*
H26C1.05470.23621.01730.051*
C270.9516 (4)0.4256 (18)1.0535 (6)0.034 (10)*
H27A0.94720.47491.07800.041*
H27B0.98250.43901.07100.041*
C280.9429 (4)0.2704 (18)1.0533 (6)0.051 (10)*
H28A0.94470.22431.02570.061*
H28B0.96690.23371.09280.061*
C290.8992 (4)0.2311 (19)1.0369 (6)0.059 (11)*
C300.8427 (5)0.0444 (18)1.0068 (7)0.071 (11)*
H30A0.82620.11761.00780.085*
H30B0.85280.02221.03810.085*
C310.8128 (4)0.0275 (16)0.9454 (5)0.091 (12)*
H31A0.78950.03500.91580.136*
H31B0.79970.10950.94700.136*
H31C0.83060.05290.93500.136*
C320.8667 (4)0.6283 (19)0.9920 (6)0.034 (10)*
H32A0.84110.68450.96240.051*
H32B0.88890.68481.02600.051*
H32C0.85780.55451.00420.051*
C330.7508 (4)0.859 (2)0.7794 (6)0.034 (10)*
H33A0.73110.92670.74820.041*
H33B0.77340.91120.81550.041*
C340.7244 (5)0.7836 (17)0.7898 (7)0.046 (10)*
H34A0.72000.84110.81260.055*
H34B0.74020.70010.81270.055*
C350.6781 (4)0.7437 (17)0.7289 (6)0.050 (10)*
C360.6421 (4)0.5757 (18)0.6487 (7)0.058 (10)*
H36A0.63470.66070.62620.070*
H36B0.65690.51290.64060.070*
C370.6008 (4)0.5101 (18)0.6313 (7)0.068 (12)*
H37A0.58070.48860.58940.102*
H37B0.58650.57330.63950.102*
H37C0.60860.42610.65380.102*
C380.7278 (4)0.8624 (18)0.6580 (6)0.034 (10)*
H38A0.72790.85260.62580.051*
H38B0.73000.95910.66770.051*
H38C0.70040.82500.64620.051*
C390.8137 (4)0.6012 (19)0.5812 (6)0.034 (10)*
H39A0.79970.68870.57710.041*
H39B0.83130.61550.56930.041*
C400.7777 (4)0.4897 (18)0.5414 (6)0.052 (12)*
H40A0.79210.39960.55150.062*
H40B0.75760.48660.54980.062*
C410.7509 (5)0.5157 (17)0.4762 (7)0.058 (11)*
C420.6974 (4)0.4449 (19)0.3694 (7)0.071 (11)*
H42A0.69460.54370.36090.085*
H42B0.71140.40200.35550.085*
C430.6524 (4)0.384 (2)0.3371 (6)0.094 (11)*
H43A0.63450.39920.29500.141*
H43B0.63830.42760.35040.141*
H43C0.65520.28600.34490.141*
C440.8932 (4)0.4175 (19)0.6362 (6)0.034 (10)*
H44A0.91870.35680.66000.051*
H44B0.90060.49790.62490.051*
H44C0.86860.36920.60100.051*
O11.0781 (3)0.0868 (13)0.8400 (4)0.058 (7)*
O21.0411 (3)0.1050 (14)0.8286 (4)0.063 (7)*
O30.8775 (3)0.3143 (12)1.0409 (4)0.054 (7)*
O40.8818 (3)0.1038 (13)1.0157 (4)0.058 (7)*
O50.6509 (3)0.8273 (12)0.7038 (4)0.042 (6)*
O60.6724 (3)0.6071 (13)0.7148 (4)0.053 (6)*
O70.7559 (3)0.6281 (14)0.4631 (4)0.054 (6)*
O80.7260 (3)0.4236 (13)0.4346 (4)0.060 (7)*
O90.9432 (3)0.7812 (12)0.8590 (4)0.074 (7)*
C450.9192 (5)0.6859 (19)0.8412 (6)0.074 (10)*
Geometric parameters (Å, º) top
Ru1—C451.871 (19)C25—H25C0.9600
Ru1—N22.025 (17)C26—H26A0.9601
Ru1—N42.031 (16)C26—H26B0.9599
Ru1—N12.041 (12)C26—H26C0.9600
Ru1—N32.055 (12)C27—C281.53 (2)
Ru1—O5i2.194 (12)C27—H27A0.9700
N1—C11.39 (3)C27—H27B0.9700
N1—C41.418 (18)C28—C291.50 (3)
N2—C61.383 (17)C28—H28A0.9700
N2—C91.39 (3)C28—H28B0.9700
N3—C111.34 (3)C29—O31.23 (2)
N3—C141.404 (18)C29—O41.34 (2)
N4—C161.366 (16)C30—O41.50 (2)
N4—C191.37 (3)C30—C311.54 (2)
C1—C201.39 (2)C30—H30A0.9701
C1—C21.418 (19)C30—H30B0.9699
C2—C31.40 (3)C31—H31A0.9600
C2—C211.43 (3)C31—H31B0.9600
C3—C41.39 (3)C31—H31C0.9600
C3—C261.513 (18)C32—H32A0.9600
C4—C51.38 (3)C32—H32B0.9600
C5—C61.37 (2)C32—H32C0.9603
C5—H50.9300C33—C341.46 (3)
C6—C71.45 (3)C33—H33A0.9699
C7—C81.33 (2)C33—H33B0.9700
C7—C271.50 (2)C34—C351.558 (16)
C8—C91.45 (2)C34—H34A0.9702
C8—C321.49 (3)C34—H34B0.9700
C9—C101.380 (19)C35—O51.143 (17)
C10—C111.39 (2)C35—O61.35 (2)
C10—H100.9299C36—C371.49 (3)
C11—C121.467 (19)C36—O61.512 (19)
C12—C131.36 (3)C36—H36A0.9700
C12—C331.45 (3)C36—H36B0.9701
C13—C141.44 (3)C37—H37A0.9601
C13—C381.512 (17)C37—H37B0.9599
C14—C151.37 (3)C37—H37C0.9602
C15—C161.40 (3)C38—H38A0.9600
C15—H150.9300C38—H38B0.9599
C16—C171.44 (3)C38—H38C0.9601
C17—C181.37 (2)C39—C401.54 (2)
C17—C391.55 (2)C39—H39A0.9701
C18—C191.45 (3)C39—H39B0.9699
C18—C441.52 (3)C40—C411.49 (2)
C19—C201.385 (18)C40—H40A0.9701
C20—H200.9299C40—H40B0.9699
C21—C221.45 (3)C41—O71.21 (2)
C21—H21A0.9699C41—O81.297 (18)
C21—H21B0.9701C42—C431.48 (2)
C22—C231.55 (3)C42—O81.48 (2)
C22—H22A0.9700C42—H42A0.9700
C22—H22B0.9700C42—H42B0.9699
C23—O11.16 (2)C43—H43A0.9601
C23—O21.36 (2)C43—H43B0.9599
C24—O21.44 (3)C43—H43C0.9600
C24—C251.50 (3)C44—H44A0.9600
C24—H24A0.9700C44—H44B0.9600
C24—H24B0.9700C44—H44C0.9600
C25—H25A0.9601O5—Ru1ii2.194 (11)
C25—H25B0.9599O9—C451.17 (2)
C45—Ru1—N295.7 (7)H25B—C25—H25C109.5
C45—Ru1—N490.2 (7)C3—C26—H26A109.5
N2—Ru1—N4173.8 (5)C3—C26—H26B109.5
C45—Ru1—N195.9 (7)H26A—C26—H26B109.5
N2—Ru1—N191.7 (6)C3—C26—H26C109.5
N4—Ru1—N189.3 (5)H26A—C26—H26C109.5
C45—Ru1—N389.6 (7)H26B—C26—H26C109.5
N2—Ru1—N387.9 (6)C7—C27—C28111.4 (12)
N4—Ru1—N390.5 (5)C7—C27—H27A109.3
N1—Ru1—N3174.5 (5)C28—C27—H27A109.3
C45—Ru1—O5i175.2 (8)C7—C27—H27B109.3
N2—Ru1—O5i87.0 (5)C28—C27—H27B109.3
N4—Ru1—O5i87.1 (5)H27A—C27—H27B108.0
N1—Ru1—O5i80.0 (5)C29—C28—C27117.0 (15)
N3—Ru1—O5i94.4 (5)C29—C28—H28A108.1
C1—N1—C4104.8 (12)C27—C28—H28A108.0
C1—N1—Ru1128.7 (10)C29—C28—H28B108.1
C4—N1—Ru1126.3 (13)C27—C28—H28B108.0
C6—N2—C9106.2 (15)H28A—C28—H28B107.3
C6—N2—Ru1124.7 (14)O3—C29—O4117.5 (16)
C9—N2—Ru1128.9 (9)O3—C29—C28121.8 (16)
C11—N3—C14106.1 (13)O4—C29—C28120.6 (17)
C11—N3—Ru1127.2 (9)O4—C30—C31106.7 (17)
C14—N3—Ru1126.6 (13)O4—C30—H30A110.4
C16—N4—C19107.1 (15)C31—C30—H30A110.4
C16—N4—Ru1126.2 (13)O4—C30—H30B110.4
C19—N4—Ru1126.6 (8)C31—C30—H30B110.4
N1—C1—C20121.7 (13)H30A—C30—H30B108.6
N1—C1—C2110.5 (15)C30—C31—H31A109.5
C20—C1—C2127.7 (19)C30—C31—H31B109.5
C3—C2—C1106.7 (17)H31A—C31—H31B109.5
C3—C2—C21120.6 (13)C30—C31—H31C109.5
C1—C2—C21132.8 (18)H31A—C31—H31C109.5
C4—C3—C2107.7 (13)H31B—C31—H31C109.5
C4—C3—C26130.7 (19)C8—C32—H32A109.5
C2—C3—C26121.5 (17)C8—C32—H32B109.5
C5—C4—C3128.9 (13)H32A—C32—H32B109.5
C5—C4—N1120.8 (14)C8—C32—H32C109.5
C3—C4—N1110.2 (17)H32A—C32—H32C109.4
C6—C5—C4131.0 (13)H32B—C32—H32C109.4
C6—C5—H5114.5C12—C33—C34120.2 (18)
C4—C5—H5114.5C12—C33—H33A107.3
C5—C6—N2125.2 (18)C34—C33—H33A107.3
C5—C6—C7125.9 (13)C12—C33—H33B107.3
N2—C6—C7108.9 (15)C34—C33—H33B107.3
C8—C7—C6108.2 (15)H33A—C33—H33B106.9
C8—C7—C27129 (2)C33—C34—C35109.8 (15)
C6—C7—C27123.2 (15)C33—C34—H34A109.7
C7—C8—C9107.2 (19)C35—C34—H34A109.7
C7—C8—C32129.6 (16)C33—C34—H34B109.7
C9—C8—C32123.2 (13)C35—C34—H34B109.7
C10—C9—N2123.8 (16)H34A—C34—H34B108.2
C10—C9—C8126.7 (18)O5—C35—O6125.9 (11)
N2—C9—C8109.4 (13)O5—C35—C34118.1 (14)
C9—C10—C11125.3 (19)O6—C35—C34115.4 (11)
C9—C10—H10117.4C37—C36—O6107.1 (17)
C11—C10—H10117.4C37—C36—H36A110.3
N3—C11—C10126.5 (14)O6—C36—H36A110.3
N3—C11—C12111.3 (14)C37—C36—H36B110.3
C10—C11—C12122.1 (18)O6—C36—H36B110.3
C13—C12—C33131.7 (13)H36A—C36—H36B108.5
C13—C12—C11105.5 (16)C36—C37—H37A109.5
C33—C12—C11122.6 (15)C36—C37—H37B109.5
C12—C13—C14108.1 (13)H37A—C37—H37B109.5
C12—C13—C38119.2 (17)C36—C37—H37C109.5
C14—C13—C38132.5 (17)H37A—C37—H37C109.5
C15—C14—N3122.1 (15)H37B—C37—H37C109.5
C15—C14—C13128.9 (13)C13—C38—H38A109.5
N3—C14—C13109.0 (17)C13—C38—H38B109.5
C14—C15—C16129.7 (13)H38A—C38—H38B109.5
C14—C15—H15115.2C13—C38—H38C109.5
C16—C15—H15115.2H38A—C38—H38C109.5
N4—C16—C15124.7 (18)H38B—C38—H38C109.5
N4—C16—C17109.5 (15)C40—C39—C17108.2 (14)
C15—C16—C17125.7 (13)C40—C39—H39A110.1
C18—C17—C16107.7 (14)C17—C39—H39A110.1
C18—C17—C39124.2 (19)C40—C39—H39B110.1
C16—C17—C39128.0 (15)C17—C39—H39B110.1
C17—C18—C19105.7 (18)H39A—C39—H39B108.4
C17—C18—C44119.3 (15)C41—C40—C39113.1 (15)
C19—C18—C44134.9 (13)C41—C40—H40A109.0
N4—C19—C20125.4 (17)C39—C40—H40A109.0
N4—C19—C18109.8 (12)C41—C40—H40B109.0
C20—C19—C18124.7 (19)C39—C40—H40B109.0
C19—C20—C1128.0 (19)H40A—C40—H40B107.8
C19—C20—H20116.0O7—C41—O8119.2 (16)
C1—C20—H20116.0O7—C41—C40115.9 (13)
C2—C21—C22122.4 (11)O8—C41—C40124.6 (16)
C2—C21—H21A106.7C43—C42—O8111.1 (17)
C22—C21—H21A106.7C43—C42—H42A109.4
C2—C21—H21B106.7O8—C42—H42A109.4
C22—C21—H21B106.7C43—C42—H42B109.4
H21A—C21—H21B106.6O8—C42—H42B109.4
C21—C22—C23112.8 (11)H42A—C42—H42B108.0
C21—C22—H22A109.0C42—C43—H43A109.5
C23—C22—H22A109.0C42—C43—H43B109.5
C21—C22—H22B109.0H43A—C43—H43B109.5
C23—C22—H22B109.0C42—C43—H43C109.5
H22A—C22—H22B107.8H43A—C43—H43C109.5
O1—C23—O2124.3 (16)H43B—C43—H43C109.5
O1—C23—C22119.5 (16)C18—C44—H44A109.5
O2—C23—C22115.4 (16)C18—C44—H44B109.5
O2—C24—C25112.9 (15)H44A—C44—H44B109.5
O2—C24—H24A109.0C18—C44—H44C109.5
C25—C24—H24A109.0H44A—C44—H44C109.5
O2—C24—H24B109.0H44B—C44—H44C109.5
C25—C24—H24B109.0C23—O2—C24127.3 (17)
H24A—C24—H24B107.8C29—O4—C30125.7 (15)
C24—C25—H25A109.5C35—O5—Ru1ii162.6 (10)
C24—C25—H25B109.5C35—O6—C36115.1 (12)
H25A—C25—H25B109.5C41—O8—C42127.0 (14)
C24—C25—H25C109.5O9—C45—Ru1173.9 (13)
H25A—C25—H25C109.5
Symmetry codes: (i) x+3/2, y1/2, z+3/2; (ii) x+3/2, y+1/2, z+3/2.
Hydrogen-bond geometry (Å, º) top
D—H···AD—HH···AD···AD—H···A
C25—H25C···O2iii0.962.173.08 (2)157
C37—H37C···O9i0.962.292.93 (2)123
C39—H39A···O7iv0.972.433.37 (2)161
C39—H39B···O3v0.972.543.51 (2)173
C43—H43B···O1vi0.962.193.00 (2)141
C44—H44A···O1iii0.962.603.29 (2)129
Symmetry codes: (i) x+3/2, y1/2, z+3/2; (iii) x+2, y, z+3/2; (iv) x+3/2, y+3/2, z+1; (v) x, y+1, z1/2; (vi) x1/2, y+1/2, z1/2.
 

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