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Acta Crystallographica Section E: Structure Reports Online logoLink to Acta Crystallographica Section E: Structure Reports Online
. 2008 Jul 31;64(Pt 8):o1652. doi: 10.1107/S1600536808023866

3-[4-(Dimethylamino)phenyl]-1,5-di­phenylpentane-1,5-dione

Qing-Peng He a,*, Xiao-Qiang Qin b, Xiao Wang a, Qiu-Lan Shi c, Yong Wang a
PMCID: PMC2962249  PMID: 21203338

Abstract

The asymmetric unit of the title compound, C25H25NO2, contains two independent mol­ecules. The crystal packing exhibits weak inter­molecular C—H⋯O, C—H⋯π and π–π inter­actions.

Related literature

For crystal structures of related compounds, see Das et al. (1994); Huang et al. (2006). For general background, see Bose et al. (2004). graphic file with name e-64-o1652-scheme1.jpg

Experimental

Crystal data

  • C25H25NO2

  • M r = 371.46

  • Triclinic, Inline graphic

  • a = 9.926 (1) Å

  • b = 11.3749 (14) Å

  • c = 18.853 (2) Å

  • α = 90.443 (10)°

  • β = 94.782 (10)°

  • γ = 99.862 (2)°

  • V = 2089.3 (4) Å3

  • Z = 4

  • Mo Kα radiation

  • μ = 0.07 mm−1

  • T = 298 (2) K

  • 0.49 × 0.40 × 0.29 mm

Data collection

  • Bruker SMART CCD area-detector diffractometer

  • Absorption correction: multi-scan (SADABS; Sheldrick, 1996) T min = 0.965, T max = 0.979

  • 11011 measured reflections

  • 7259 independent reflections

  • 3113 reflections with I > 2σ(I)

  • R int = 0.032

Refinement

  • R[F 2 > 2σ(F 2)] = 0.052

  • wR(F 2) = 0.139

  • S = 0.99

  • 7259 reflections

  • 505 parameters

  • H-atom parameters constrained

  • Δρmax = 0.17 e Å−3

  • Δρmin = −0.15 e Å−3

Data collection: SMART (Siemens, 1996); cell refinement: SAINT (Siemens, 1996); data reduction: SAINT; program(s) used to solve structure: SHELXS97 (Sheldrick, 2008); program(s) used to refine structure: SHELXS97 (Sheldrick, 2008); molecular graphics: SHELXTL (Sheldrick, 2008); software used to prepare material for publication: SHELXTL.

Supplementary Material

Crystal structure: contains datablocks I, global. DOI: 10.1107/S1600536808023866/cv2435sup1.cif

e-64-o1652-sup1.cif (28.5KB, cif)

Structure factors: contains datablocks I. DOI: 10.1107/S1600536808023866/cv2435Isup2.hkl

e-64-o1652-Isup2.hkl (355.2KB, hkl)

Additional supplementary materials: crystallographic information; 3D view; checkCIF report

Table 1. Centroid⋯centroid distance (Å).

Cg1⋯Cg1i 3.773 (4)
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Symmetry code: (i) Inline graphic. Cg1 is the centroid of atoms C45–C50.

Table 2. Hydrogen-bond geometry (Å, °).

D—H⋯A D—H H⋯A DA D—H⋯A
C46—H46⋯O1 0.93 2.51 3.436 (4) 172
C23—H23⋯Cg2ii 0.93 2.67 3.535 (4) 155
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Symmetry code: (ii) Inline graphic. Cg2 is the centroid of atoms C2–C7.

Acknowledgments

The authors acknowledge the financial support of the Natural Science Foundation of Liaocheng University (grant No. X071013).

supplementary crystallographic information

Comment

The "Grindstone Chemistry" method for conducting exothermic reactions in the solvent-free mode has been recently published (Bose et al., 2004). When this protocol was applied to the Pechmann synthesis on a multi-molar scale, the expected coumarins were obtained in a few minutes as pure products in high yield by solvent-free grinding. Since this reaction proved to be exothermic, we tested energy-saving procedures developed in our laboratory for the preparation of 1,5-diketones starting from the fragrant aldehydes and fragrant ketones in the presence of NaOH under solvent-free conditions. Using this method, we obtained the title compound, (I). Herewith we present its crystal structure.

In (I), all bond lengths and angles are normal and correspond to those observed in 1,3,5-triphenyl-pentane-1,5-diketone (Das et al., 1994) and 1,5-diphenyl-3-(2-pyridyl)pentane-1,5-dione (Huang et al.cv2222435, 2006). The asymmetric unit of (I) contains two independent molecules (Fig. 1) with different conformations - the dihedral angles formed by two phenyl rings in each molecule are 85.48 (7) and 71.26 (7)°, respectively.

The weak intermolecular π–π (Table 1) and C—H···π (Table 2) interactions, and C—H···O hydrogen bonds (Table 2) contribute to the crystal packing stabilization.

Experimental

Acetophenone (6.25 mmol) and 4-(dimethylamino)benzaldehyde (3.125 mmol), NaOH (6.25 mmol) were aggregated with glass paddle in an open flask. The resulting mixture was washed with water for several times for removing NaOH, and recrystalized from ethanol, and afforded the title compound as a crystalline solid. Elemental analysis: calculated for C25 H25 NO2: C 80.83, H 6.78, N 3.77%; Found: C80.88, H 6.83, N3.65%.

Refinement

All H atoms were positioned geometrically (C—H 0.93–0.98 Å) and refined using a riding model, with Uiso(H) = 1.2-1.5Ueq(C).

Figures

Fig. 1.

Fig. 1.

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Two independent molecules of (I) with the atom numbering scheme and 30% probability displacement ellipsoids. Hydrogen atoms are omitted for clarity

Crystal data

C25H25NO2 Z = 4
Mr = 371.46 F000 = 792
Triclinic, P1 Dx = 1.181 Mg m3
a = 9.9260 (10) Å Mo Kα radiation λ = 0.71073 Å
b = 11.3749 (14) Å Cell parameters from 1876 reflections
c = 18.853 (2) Å θ = 2.3–21.9º
α = 90.4430 (10)º µ = 0.07 mm1
β = 94.7820 (10)º T = 298 (2) K
γ = 99.862 (2)º Needle, orange
V = 2089.3 (4) Å3 0.49 × 0.40 × 0.29 mm
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Data collection

Bruker SMART CCD area-detector diffractometer 7259 independent reflections
Radiation source: fine-focus sealed tube 3113 reflections with I > 2σ(I)
Monochromator: graphite Rint = 0.032
T = 298(2) K θmax = 25.0º
phi and ω scans θmin = 1.8º
Absorption correction: multi-scan(SADABS; Sheldrick, 1996) h = −11→11
Tmin = 0.965, Tmax = 0.979 k = −13→11
11011 measured reflections l = −21→22
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Refinement

Refinement on F2 Secondary atom site location: difference Fourier map
Least-squares matrix: full Hydrogen site location: inferred from neighbouring sites
R[F2 > 2σ(F2)] = 0.052 H-atom parameters constrained
wR(F2) = 0.139   w = 1/[σ2(Fo2) + (0.0484P)2] where P = (Fo2 + 2Fc2)/3
S = 0.99 (Δ/σ)max = 0.001
7259 reflections Δρmax = 0.17 e Å3
505 parameters Δρmin = −0.15 e Å3
Primary atom site location: structure-invariant direct methods Extinction correction: none
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Special details

Geometry. All e.s.d.'s (except the e.s.d. in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell e.s.d.'s are taken into account individually in the estimation of e.s.d.'s in distances, angles and torsion angles; correlations between e.s.d.'s in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell e.s.d.'s is used for estimating e.s.d.'s involving l.s. planes.
Refinement. Refinement of F2 against ALL reflections. The weighted R-factor wR and goodness of fit S are based on F2, conventional R-factors R are based on F, with F set to zero for negative F2. The threshold expression of F2 > σ(F2) is used only for calculating R-factors(gt) etc. and is not relevant to the choice of reflections for refinement. R-factors based on F2 are statistically about twice as large as those based on F, and R- factors based on ALL data will be even larger.
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Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2)

x y z Uiso*/Ueq
N1 −0.2518 (3) 0.1016 (2) 0.07384 (14) 0.0746 (8)
N2 0.7107 (3) 0.3289 (3) 0.54492 (15) 0.0770 (8)
O1 0.3269 (2) 0.29812 (16) 0.24964 (10) 0.0591 (6)
O2 0.3520 (2) 0.69008 (17) 0.22151 (11) 0.0672 (6)
O3 0.9223 (2) 0.7410 (2) 0.31919 (13) 0.0890 (8)
O4 0.7803 (2) 0.5520 (2) 0.12546 (11) 0.0851 (8)
C1 0.1699 (3) 0.4704 (2) 0.20068 (15) 0.0484 (8)
H1 0.2518 0.4698 0.1751 0.058*
C2 0.0584 (3) 0.3716 (2) 0.16849 (15) 0.0442 (7)
C3 −0.0406 (3) 0.3083 (2) 0.20687 (15) 0.0538 (8)
H3 −0.0384 0.3247 0.2554 0.065*
C4 −0.1433 (3) 0.2212 (2) 0.17590 (15) 0.0548 (8)
H4 −0.2084 0.1811 0.2039 0.066*
C5 −0.1514 (3) 0.1923 (2) 0.10427 (15) 0.0504 (8)
C6 −0.0526 (3) 0.2565 (3) 0.06505 (15) 0.0638 (9)
H6 −0.0549 0.2408 0.0164 0.077*
C7 0.0484 (3) 0.3429 (3) 0.09681 (15) 0.0586 (9)
H7 0.1129 0.3839 0.0688 0.070*
C8 −0.2579 (4) 0.0717 (3) 0.00048 (18) 0.1051 (14)
H8A −0.2723 0.1397 −0.0271 0.158*
H8B −0.3322 0.0068 −0.0112 0.158*
H8C −0.1731 0.0483 −0.0100 0.158*
C9 −0.3612 (3) 0.0485 (3) 0.11383 (19) 0.0898 (12)
H9A −0.3261 0.0017 0.1509 0.135*
H9B −0.4293 −0.0020 0.0830 0.135*
H9C −0.4018 0.1099 0.1345 0.135*
C10 0.2091 (3) 0.4528 (2) 0.27920 (14) 0.0517 (8)
H10A 0.2778 0.5200 0.2969 0.062*
H10B 0.1288 0.4524 0.3053 0.062*
C11 0.2644 (3) 0.3393 (2) 0.29382 (15) 0.0438 (7)
C12 0.2454 (3) 0.2790 (3) 0.36266 (14) 0.0455 (7)
C13 0.2109 (3) 0.3365 (3) 0.42188 (16) 0.0600 (9)
H13 0.1970 0.4152 0.4188 0.072*
C14 0.1968 (3) 0.2784 (4) 0.48502 (18) 0.0782 (11)
H14 0.1761 0.3180 0.5250 0.094*
C15 0.2138 (4) 0.1613 (4) 0.48865 (19) 0.0938 (13)
H15 0.2028 0.1211 0.5311 0.113*
C16 0.2465 (4) 0.1033 (3) 0.4305 (2) 0.0950 (13)
H16 0.2574 0.0238 0.4334 0.114*
C17 0.2635 (3) 0.1622 (3) 0.36776 (17) 0.0728 (10)
H17 0.2873 0.1229 0.3285 0.087*
C18 0.1245 (3) 0.5911 (2) 0.18845 (16) 0.0560 (8)
H18A 0.0851 0.5922 0.1397 0.067*
H18B 0.0524 0.5976 0.2192 0.067*
C19 0.2346 (3) 0.6992 (2) 0.20144 (15) 0.0475 (8)
C20 0.1967 (3) 0.8179 (2) 0.18730 (14) 0.0469 (7)
C21 0.2981 (3) 0.9170 (3) 0.19303 (14) 0.0594 (9)
H21 0.3884 0.9077 0.2049 0.071*
C22 0.2693 (4) 1.0295 (3) 0.18159 (17) 0.0695 (10)
H22 0.3398 1.0952 0.1851 0.083*
C23 0.1376 (5) 1.0446 (3) 0.16508 (18) 0.0801 (11)
H23 0.1175 1.1209 0.1584 0.096*
C24 0.0341 (4) 0.9469 (3) 0.15827 (19) 0.0836 (11)
H24 −0.0560 0.9570 0.1464 0.100*
C25 0.0640 (3) 0.8339 (3) 0.16907 (17) 0.0682 (9)
H25 −0.0062 0.7680 0.1640 0.082*
C26 0.7350 (3) 0.5403 (3) 0.26971 (15) 0.0563 (8)
H26 0.8298 0.5466 0.2572 0.068*
C27 0.7282 (3) 0.4872 (2) 0.34239 (16) 0.0505 (8)
C28 0.8433 (3) 0.4613 (2) 0.38126 (17) 0.0553 (8)
H28 0.9278 0.4806 0.3624 0.066*
C29 0.8387 (3) 0.4083 (3) 0.44654 (17) 0.0580 (9)
H29 0.9193 0.3921 0.4701 0.070*
C30 0.7166 (3) 0.3785 (3) 0.47788 (17) 0.0551 (8)
C31 0.6001 (3) 0.4050 (3) 0.43978 (17) 0.0716 (10)
H31 0.5155 0.3865 0.4586 0.086*
C32 0.6080 (3) 0.4582 (3) 0.37451 (17) 0.0678 (10)
H32 0.5278 0.4753 0.3509 0.081*
C33 0.8266 (4) 0.2791 (3) 0.57485 (19) 0.0954 (12)
H33A 0.8411 0.2150 0.5446 0.143*
H33B 0.8089 0.2494 0.6213 0.143*
H33C 0.9071 0.3399 0.5786 0.143*
C34 0.5808 (4) 0.2732 (4) 0.5674 (2) 0.1185 (16)
H34A 0.5191 0.3297 0.5657 0.178*
H34B 0.5934 0.2463 0.6153 0.178*
H34C 0.5430 0.2062 0.5364 0.178*
C35 0.6987 (3) 0.6660 (3) 0.26728 (16) 0.0640 (9)
H35A 0.6814 0.6865 0.2179 0.077*
H35B 0.6145 0.6651 0.2900 0.077*
C36 0.8079 (3) 0.7616 (3) 0.30282 (15) 0.0579 (9)
C37 0.7755 (4) 0.8824 (3) 0.31653 (14) 0.0547 (8)
C38 0.8810 (4) 0.9747 (3) 0.33986 (16) 0.0742 (10)
H38 0.9710 0.9610 0.3442 0.089*
C39 0.8547 (5) 1.0854 (3) 0.35654 (18) 0.0856 (12)
H39 0.9265 1.1458 0.3724 0.103*
C40 0.7232 (5) 1.1073 (3) 0.34998 (19) 0.0929 (13)
H40 0.7055 1.1824 0.3619 0.111*
C41 0.6170 (4) 1.0184 (4) 0.32569 (19) 0.0912 (12)
H41 0.5274 1.0332 0.3206 0.109*
C42 0.6445 (4) 0.9068 (3) 0.30883 (16) 0.0691 (10)
H42 0.5726 0.8470 0.2919 0.083*
C43 0.6433 (3) 0.4592 (3) 0.21342 (14) 0.0594 (9)
H43A 0.6464 0.3768 0.2251 0.071*
H43B 0.5494 0.4715 0.2156 0.071*
C44 0.6818 (3) 0.4790 (3) 0.13862 (16) 0.0596 (9)
C45 0.5958 (4) 0.4051 (3) 0.07981 (15) 0.0560 (8)
C46 0.4716 (4) 0.3347 (3) 0.09015 (16) 0.0652 (9)
H46 0.4407 0.3293 0.1354 0.078*
C47 0.3927 (4) 0.2721 (3) 0.0337 (2) 0.0849 (12)
H47 0.3092 0.2247 0.0411 0.102*
C48 0.4374 (5) 0.2799 (3) −0.0329 (2) 0.0950 (14)
H48 0.3836 0.2386 −0.0709 0.114*
C49 0.5601 (5) 0.3476 (4) −0.0439 (2) 0.0997 (14)
H49 0.5902 0.3514 −0.0893 0.120*
C50 0.6408 (4) 0.4110 (3) 0.01199 (19) 0.0811 (11)
H50 0.7247 0.4572 0.0041 0.097*
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Atomic displacement parameters (Å2)

U11 U22 U33 U12 U13 U23
N1 0.076 (2) 0.073 (2) 0.0634 (19) −0.0123 (17) −0.0067 (16) −0.0099 (15)
N2 0.069 (2) 0.091 (2) 0.068 (2) 0.0095 (18) −0.0050 (17) 0.0116 (17)
O1 0.0684 (15) 0.0540 (13) 0.0604 (13) 0.0197 (11) 0.0191 (11) 0.0048 (10)
O2 0.0488 (14) 0.0509 (13) 0.0990 (17) 0.0065 (11) −0.0074 (13) 0.0100 (11)
O3 0.0569 (16) 0.0780 (17) 0.124 (2) 0.0050 (13) −0.0276 (15) 0.0143 (14)
O4 0.0693 (17) 0.0997 (19) 0.0812 (16) −0.0029 (14) 0.0096 (13) 0.0295 (14)
C1 0.0450 (19) 0.0388 (18) 0.061 (2) 0.0068 (15) 0.0029 (15) 0.0055 (14)
C2 0.0478 (19) 0.0331 (17) 0.0509 (19) 0.0072 (14) −0.0012 (15) 0.0051 (14)
C3 0.061 (2) 0.0469 (19) 0.0516 (18) 0.0044 (17) 0.0039 (17) −0.0019 (15)
C4 0.052 (2) 0.053 (2) 0.056 (2) −0.0037 (16) 0.0100 (16) 0.0003 (16)
C5 0.051 (2) 0.0440 (19) 0.054 (2) 0.0041 (16) −0.0040 (16) −0.0008 (16)
C6 0.079 (3) 0.061 (2) 0.0468 (19) 0.001 (2) 0.0007 (18) −0.0006 (17)
C7 0.069 (2) 0.051 (2) 0.053 (2) −0.0005 (18) 0.0084 (17) 0.0082 (16)
C8 0.129 (4) 0.096 (3) 0.072 (3) −0.021 (3) −0.012 (2) −0.021 (2)
C9 0.070 (3) 0.075 (3) 0.113 (3) −0.015 (2) 0.000 (2) −0.015 (2)
C10 0.053 (2) 0.0395 (18) 0.062 (2) 0.0083 (15) 0.0004 (16) −0.0042 (15)
C11 0.0385 (18) 0.0359 (18) 0.0550 (19) 0.0024 (14) 0.0009 (15) −0.0048 (15)
C12 0.0433 (19) 0.0454 (19) 0.0472 (19) 0.0081 (15) −0.0004 (15) 0.0015 (15)
C13 0.060 (2) 0.068 (2) 0.054 (2) 0.0176 (18) 0.0000 (17) −0.0043 (18)
C14 0.082 (3) 0.105 (3) 0.050 (2) 0.020 (2) 0.0064 (19) −0.004 (2)
C15 0.118 (4) 0.106 (4) 0.053 (2) 0.007 (3) 0.007 (2) 0.021 (2)
C16 0.143 (4) 0.067 (3) 0.074 (3) 0.018 (2) 0.002 (3) 0.021 (2)
C17 0.105 (3) 0.055 (2) 0.062 (2) 0.023 (2) 0.007 (2) 0.0072 (18)
C18 0.046 (2) 0.0402 (18) 0.079 (2) 0.0042 (15) −0.0013 (17) 0.0052 (15)
C19 0.045 (2) 0.0433 (19) 0.0547 (19) 0.0074 (16) 0.0055 (16) 0.0053 (14)
C20 0.050 (2) 0.0403 (19) 0.0510 (18) 0.0101 (16) 0.0035 (16) 0.0072 (14)
C21 0.065 (2) 0.045 (2) 0.065 (2) 0.0048 (18) −0.0004 (17) 0.0017 (16)
C22 0.087 (3) 0.043 (2) 0.076 (2) 0.007 (2) 0.005 (2) 0.0001 (17)
C23 0.106 (3) 0.047 (2) 0.095 (3) 0.028 (2) 0.020 (3) 0.0124 (19)
C24 0.068 (3) 0.068 (3) 0.124 (3) 0.033 (2) 0.015 (2) 0.022 (2)
C25 0.063 (2) 0.047 (2) 0.096 (3) 0.0117 (18) 0.009 (2) 0.0137 (18)
C26 0.044 (2) 0.060 (2) 0.064 (2) 0.0085 (16) 0.0022 (16) 0.0021 (17)
C27 0.0353 (19) 0.056 (2) 0.059 (2) 0.0082 (15) 0.0001 (16) −0.0059 (16)
C28 0.038 (2) 0.058 (2) 0.070 (2) 0.0100 (16) 0.0025 (17) −0.0009 (17)
C29 0.043 (2) 0.060 (2) 0.070 (2) 0.0120 (17) −0.0063 (18) −0.0004 (18)
C30 0.049 (2) 0.059 (2) 0.055 (2) 0.0056 (17) −0.0039 (18) −0.0038 (16)
C31 0.044 (2) 0.106 (3) 0.062 (2) 0.0048 (19) 0.0057 (18) 0.005 (2)
C32 0.040 (2) 0.100 (3) 0.063 (2) 0.0158 (19) −0.0046 (18) 0.004 (2)
C33 0.089 (3) 0.105 (3) 0.089 (3) 0.016 (2) −0.009 (2) 0.035 (2)
C34 0.090 (3) 0.163 (4) 0.101 (3) 0.006 (3) 0.022 (3) 0.051 (3)
C35 0.053 (2) 0.064 (2) 0.071 (2) 0.0066 (18) −0.0096 (17) 0.0012 (17)
C36 0.049 (2) 0.066 (2) 0.0541 (19) 0.0009 (19) −0.0065 (17) 0.0113 (17)
C37 0.061 (2) 0.054 (2) 0.0440 (18) −0.0014 (19) −0.0017 (17) 0.0060 (15)
C38 0.074 (3) 0.072 (3) 0.067 (2) −0.010 (2) −0.0039 (19) 0.0096 (19)
C39 0.106 (4) 0.064 (3) 0.076 (3) −0.011 (3) −0.005 (3) −0.001 (2)
C40 0.122 (4) 0.070 (3) 0.083 (3) 0.008 (3) 0.005 (3) −0.013 (2)
C41 0.091 (3) 0.080 (3) 0.104 (3) 0.022 (3) 0.007 (2) −0.018 (2)
C42 0.067 (3) 0.068 (3) 0.069 (2) 0.006 (2) 0.000 (2) −0.0034 (18)
C43 0.059 (2) 0.064 (2) 0.055 (2) 0.0085 (17) 0.0050 (17) 0.0033 (16)
C44 0.058 (2) 0.058 (2) 0.066 (2) 0.0190 (18) 0.0085 (19) 0.0140 (18)
C45 0.074 (2) 0.053 (2) 0.049 (2) 0.0256 (18) 0.0162 (18) 0.0104 (16)
C46 0.086 (3) 0.055 (2) 0.054 (2) 0.0110 (19) 0.0068 (19) 0.0005 (17)
C47 0.114 (3) 0.063 (2) 0.072 (3) 0.008 (2) −0.007 (2) −0.007 (2)
C48 0.162 (5) 0.066 (3) 0.058 (3) 0.031 (3) −0.009 (3) −0.005 (2)
C49 0.162 (5) 0.096 (3) 0.052 (3) 0.047 (3) 0.020 (3) 0.001 (2)
C50 0.103 (3) 0.082 (3) 0.068 (3) 0.033 (2) 0.028 (2) 0.019 (2)
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Geometric parameters (Å, °)

N1—C5 1.389 (3) C23—C24 1.376 (4)
N1—C8 1.416 (4) C23—H23 0.9300
N1—C9 1.425 (4) C24—C25 1.381 (4)
N2—C30 1.390 (4) C24—H24 0.9300
N2—C34 1.435 (4) C25—H25 0.9300
N2—C33 1.443 (4) C26—C27 1.503 (4)
O1—C11 1.216 (3) C26—C43 1.530 (3)
O2—C19 1.217 (3) C26—C35 1.534 (4)
O3—C36 1.214 (3) C26—H26 0.9800
O4—C44 1.213 (3) C27—C32 1.374 (4)
C1—C2 1.519 (3) C27—C28 1.382 (4)
C1—C10 1.523 (3) C28—C29 1.376 (4)
C1—C18 1.529 (4) C28—H28 0.9300
C1—H1 0.9800 C29—C30 1.383 (4)
C2—C3 1.376 (3) C29—H29 0.9300
C2—C7 1.379 (3) C30—C31 1.389 (4)
C3—C4 1.381 (3) C31—C32 1.378 (4)
C3—H3 0.9301 C31—H31 0.9300
C4—C5 1.380 (4) C32—H32 0.9300
C4—H4 0.9300 C33—H33A 0.9600
C5—C6 1.388 (4) C33—H33B 0.9600
C6—C7 1.372 (3) C33—H33C 0.9600
C6—H6 0.9301 C34—H34A 0.9600
C7—H7 0.9300 C34—H34B 0.9600
C8—H8A 0.9600 C34—H34C 0.9600
C8—H8B 0.9600 C35—C36 1.506 (4)
C8—H8C 0.9600 C35—H35A 0.9700
C9—H9A 0.9600 C35—H35B 0.9700
C9—H9B 0.9600 C36—C37 1.489 (4)
C9—H9C 0.9600 C37—C42 1.371 (4)
C10—C11 1.506 (4) C37—C38 1.390 (4)
C10—H10A 0.9700 C38—C39 1.368 (4)
C10—H10B 0.9700 C38—H38 0.9300
C11—O1 1.216 (3) C39—C40 1.366 (5)
C11—C12 1.484 (4) C39—H39 0.9300
C12—C17 1.374 (4) C40—C41 1.375 (4)
C12—C13 1.386 (4) C40—H40 0.9300
C13—C14 1.371 (4) C41—C42 1.384 (4)
C13—H13 0.9300 C41—H41 0.9300
C14—C15 1.372 (5) C42—H42 0.9300
C14—H14 0.9300 C43—C44 1.500 (4)
C15—C16 1.366 (5) C43—H43A 0.9700
C15—H15 0.9300 C43—H43B 0.9700
C16—C17 1.372 (4) C44—C45 1.499 (4)
C16—H16 0.9300 C45—C46 1.380 (4)
C17—H17 0.9300 C45—C50 1.387 (4)
C18—C19 1.503 (3) C46—C47 1.382 (4)
C18—H18A 0.9700 C46—H46 0.9299
C18—H18B 0.9700 C47—C48 1.364 (5)
C19—C20 1.483 (4) C47—H47 0.9300
C20—C21 1.374 (3) C48—C49 1.357 (5)
C20—C25 1.376 (4) C48—H48 0.9299
C21—C22 1.373 (4) C49—C50 1.386 (5)
C21—H21 0.9300 C49—H49 0.9298
C22—C23 1.359 (4) C50—H50 0.9300
C22—H22 0.9300
Cg1···Cg1i 3.773 (4)
C5—N1—C8 120.7 (3) C20—C25—C24 120.6 (3)
C5—N1—C9 120.1 (3) C20—C25—H25 119.7
C8—N1—C9 118.7 (3) C24—C25—H25 119.7
C30—N2—C34 119.6 (3) C27—C26—C43 111.4 (2)
C30—N2—C33 118.6 (3) C27—C26—C35 112.9 (2)
C34—N2—C33 114.6 (3) C43—C26—C35 109.9 (2)
C2—C1—C10 112.8 (2) C27—C26—H26 107.5
C2—C1—C18 109.4 (2) C43—C26—H26 107.5
C10—C1—C18 111.5 (2) C35—C26—H26 107.5
C2—C1—H1 107.6 C32—C27—C28 114.9 (3)
C10—C1—H1 107.6 C32—C27—C26 123.1 (3)
C18—C1—H1 107.6 C28—C27—C26 122.0 (3)
C3—C2—C7 115.7 (3) C29—C28—C27 123.0 (3)
C3—C2—C1 123.5 (3) C29—C28—H28 118.5
C7—C2—C1 120.8 (3) C27—C28—H28 118.5
C2—C3—C4 122.3 (3) C28—C29—C30 121.4 (3)
C2—C3—H3 118.8 C28—C29—H29 119.3
C4—C3—H3 118.8 C30—C29—H29 119.3
C5—C4—C3 121.5 (3) C29—C30—C31 116.3 (3)
C5—C4—H4 119.3 C29—C30—N2 122.2 (3)
C3—C4—H4 119.3 C31—C30—N2 121.4 (3)
C4—C5—C6 116.5 (3) C32—C31—C30 120.9 (3)
C4—C5—N1 121.3 (3) C32—C31—H31 119.5
C6—C5—N1 122.2 (3) C30—C31—H31 119.5
C7—C6—C5 121.1 (3) C27—C32—C31 123.5 (3)
C7—C6—H6 119.5 C27—C32—H32 118.3
C5—C6—H6 119.5 C31—C32—H32 118.3
C6—C7—C2 122.9 (3) N2—C33—H33A 109.5
C6—C7—H7 118.6 N2—C33—H33B 109.5
C2—C7—H7 118.6 H33A—C33—H33B 109.5
N1—C8—H8A 109.5 N2—C33—H33C 109.5
N1—C8—H8B 109.5 H33A—C33—H33C 109.5
H8A—C8—H8B 109.5 H33B—C33—H33C 109.5
N1—C8—H8C 109.5 N2—C34—H34A 109.5
H8A—C8—H8C 109.5 N2—C34—H34B 109.5
H8B—C8—H8C 109.5 H34A—C34—H34B 109.5
N1—C9—H9A 109.5 N2—C34—H34C 109.5
N1—C9—H9B 109.5 H34A—C34—H34C 109.5
H9A—C9—H9B 109.5 H34B—C34—H34C 109.5
N1—C9—H9C 109.5 C36—C35—C26 114.4 (3)
H9A—C9—H9C 109.5 C36—C35—H35A 108.7
H9B—C9—H9C 109.5 C26—C35—H35A 108.7
C11—C10—C1 113.8 (2) C36—C35—H35B 108.7
C11—C10—H10A 108.8 C26—C35—H35B 108.7
C1—C10—H10A 108.8 H35A—C35—H35B 107.6
C11—C10—H10B 108.8 O3—C36—C37 120.1 (3)
C1—C10—H10B 108.8 O3—C36—C35 120.3 (3)
H10A—C10—H10B 107.7 C37—C36—C35 119.6 (3)
O1—C11—C12 119.9 (3) C42—C37—C38 117.8 (3)
O1—C11—C12 119.9 (3) C42—C37—C36 122.9 (3)
O1—C11—C10 120.0 (3) C38—C37—C36 119.3 (3)
O1—C11—C10 120.0 (3) C39—C38—C37 121.1 (4)
C12—C11—C10 120.2 (3) C39—C38—H38 119.4
C17—C12—C13 119.0 (3) C37—C38—H38 119.4
C17—C12—C11 118.6 (3) C40—C39—C38 120.2 (4)
C13—C12—C11 122.3 (3) C40—C39—H39 119.9
C14—C13—C12 120.6 (3) C38—C39—H39 119.9
C14—C13—H13 119.7 C39—C40—C41 119.9 (4)
C12—C13—H13 119.7 C39—C40—H40 120.0
C13—C14—C15 119.3 (3) C41—C40—H40 120.0
C13—C14—H14 120.3 C40—C41—C42 119.5 (4)
C15—C14—H14 120.3 C40—C41—H41 120.3
C16—C15—C14 120.6 (4) C42—C41—H41 120.3
C16—C15—H15 119.7 C37—C42—C41 121.4 (3)
C14—C15—H15 119.7 C37—C42—H42 119.3
C15—C16—C17 120.0 (4) C41—C42—H42 119.3
C15—C16—H16 120.0 C44—C43—C26 114.6 (2)
C17—C16—H16 120.0 C44—C43—H43A 108.6
C16—C17—C12 120.4 (3) C26—C43—H43A 108.6
C16—C17—H17 119.8 C44—C43—H43B 108.6
C12—C17—H17 119.8 C26—C43—H43B 108.6
C19—C18—C1 116.0 (2) H43A—C43—H43B 107.6
C19—C18—H18A 108.3 O4—C44—C45 120.3 (3)
C1—C18—H18A 108.3 O4—C44—C43 121.5 (3)
C19—C18—H18B 108.3 C45—C44—C43 118.2 (3)
C1—C18—H18B 108.3 C46—C45—C50 118.9 (3)
H18A—C18—H18B 107.4 C46—C45—C44 122.4 (3)
O2—C19—C20 120.8 (3) C50—C45—C44 118.6 (3)
O2—C19—C18 121.3 (3) C45—C46—C47 120.5 (3)
C20—C19—C18 117.9 (3) C45—C46—H46 119.8
C21—C20—C25 118.2 (3) C47—C46—H46 119.8
C21—C20—C19 118.8 (3) C48—C47—C46 120.0 (4)
C25—C20—C19 123.1 (3) C48—C47—H47 120.0
C22—C21—C20 121.6 (3) C46—C47—H47 120.0
C22—C21—H21 119.2 C49—C48—C47 120.3 (4)
C20—C21—H21 119.2 C49—C48—H48 119.8
C23—C22—C21 119.9 (3) C47—C48—H48 119.8
C23—C22—H22 120.1 CG1—C48—H48 179.5
C21—C22—H22 120.1 C48—C49—C50 120.6 (4)
C22—C23—C24 119.9 (3) C48—C49—H49 119.7
C22—C23—H23 120.1 C50—C49—H49 119.7
C24—C23—H23 120.1 C49—C50—C45 119.7 (4)
C23—C24—C25 120.0 (3) C49—C50—H50 120.2
C23—C24—H24 120.0 C45—C50—H50 120.2
C25—C24—H24 120.0
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Symmetry codes: (i) −x+1, −y+1, −z.

Hydrogen-bond geometry (Å, °)

D—H···A D—H H···A D···A D—H···A
C46—H46···O1 0.93 2.51 3.436 (4) 172
C23—H23···Cg2ii 0.93 2.67 3.535 (4) 155
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Symmetry codes: (ii) x, y+1, z.

Footnotes

Supplementary data and figures for this paper are available from the IUCr electronic archives (Reference: CV2435).

References

  1. Bose, A. K., Pednekar, S., Ganguly, S. N., Chakraborty, G. & Manhas, M. S. (2004). Tetrahedron Lett.45, 8351–8353..
  2. Das, G. C., Hursthouse, M. B., Malik, K. M. A., Rahman, M. M., Rahman, M. T. & Olsson, T. (1994). J. Chem. Cryst.24, 511–515.
  3. Huang, X.-Q., Wang, D.-Q., Dou, J.-M. & Wang, J.-X. (2006). Acta Cryst. E62, o60–o61.
  4. Sheldrick, G. M. (1996). SADABS University of Göttingen, Germany.
  5. Sheldrick, G. M. (2008). Acta Cryst. A64, 112–122. [DOI] [PubMed]
  6. Siemens (1996). SMART and SAINT Siemens Analytical X-ray Instruments Inc., Madison, Wisconsin, USA.

Associated Data

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

Supplementary Materials

Crystal structure: contains datablocks I, global. DOI: 10.1107/S1600536808023866/cv2435sup1.cif

e-64-o1652-sup1.cif (28.5KB, cif)

Structure factors: contains datablocks I. DOI: 10.1107/S1600536808023866/cv2435Isup2.hkl

e-64-o1652-Isup2.hkl (355.2KB, hkl)

Additional supplementary materials: crystallographic information; 3D view; checkCIF report

Articles from Acta Crystallographica Section E: Structure Reports Online are provided here courtesy of International Union of Crystallography

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