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Two kinds of iodine–iodine halogen bonds are the focus of our attention in the crystal structure of the title salt, C12H8ClINO+·I3, described by X-ray diffraction. The first kind is a halogen bond, reinforced by charges, between the I atom of the heterocyclic cation and the triiodide anion. The second kind is the rare case of a halogen bond between the terminal atoms of neighbouring triiodide anions. The influence of relatively weakly bound iodine inside an asymmetric triiodide anion on the thermal and Raman spectroscopic properties has been demonstrated.

Supporting information

cif

Crystallographic Information File (CIF) https://doi.org/10.1107/S2053229616003934/lg3186sup1.cif
Contains datablock I

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S2053229616003934/lg3186Isup2.hkl
Contains datablock I

cml

Chemical Markup Language (CML) file https://doi.org/10.1107/S2053229616003934/lg3186Isup3.cml
Supplementary material

CCDC reference: 1459305

Computing details top

Data collection: APEX2 (Bruker, 2013); cell refinement: SAINT (Bruker, 2013); data reduction: SAINT (Bruker, 2013); program(s) used to solve structure: SHELXS97 (Sheldrick, 2008); program(s) used to refine structure: SHELXL2013 (Sheldrick, 2015); molecular graphics: SHELXTL (Bruker, 2013) and ACD/ChemSketch (Advanced Chemistry Development Inc., 2015); software used to prepare material for publication: SHELXTL (Bruker, 2013).

(3E)-8-Chloro-3-iodomethylidene-2,3-dihydro-1,4-oxazino[2,3,4-ij]quinolin-4-ium triiodide top
Crystal data top
C12H8ClINO+·I3F(000) = 1296
Mr = 725.24Dx = 2.889 Mg m3
Monoclinic, P21/nSynchrotron radiation, λ = 0.41328 Å
a = 7.6227 (2) ÅCell parameters from 9796 reflections
b = 13.9464 (4) Åθ = 2.3–17.2°
c = 16.0161 (4) ŵ = 1.75 mm1
β = 101.6439 (7)°T = 100 K
V = 1667.62 (8) Å3Prism, brown
Z = 40.04 × 0.03 × 0.01 mm
Data collection top
Bruker APEXII CCD
diffractometer
5066 independent reflections
Radiation source: Advanced photon source4500 reflections with I > 2σ(I)
Diamond (111) monochromatorRint = 0.048
φ–scanθmax = 17.2°, θmin = 1.5°
Absorption correction: multi-scan
(SADABS; Bruker, 2013)
h = 1010
Tmin = 0.842, Tmax = 0.955k = 1919
45635 measured reflectionsl = 2220
Refinement top
Refinement on F2Primary atom site location: difference Fourier map
Least-squares matrix: fullSecondary atom site location: difference Fourier map
R[F2 > 2σ(F2)] = 0.016Hydrogen site location: inferred from neighbouring sites
wR(F2) = 0.035H-atom parameters constrained
S = 1.04 w = 1/[σ2(Fo2) + (0.0066P)2 + 1.3647P]
where P = (Fo2 + 2Fc2)/3
5066 reflections(Δ/σ)max = 0.002
172 parametersΔρmax = 0.59 e Å3
0 restraintsΔρmin = 0.52 e Å3
Special details top

Experimental. The crystal was cooled to 100 (2) K using the Cryojet N2 cold stream. The data collection was performed in φ-scan mode using steps of 0.5° and with fixed ω and χ angles.

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
I10.66498 (2)0.62361 (2)0.89967 (2)0.01440 (3)
I20.73791 (2)0.93112 (2)0.88024 (2)0.01641 (3)
I30.56775 (2)0.82664 (2)0.72026 (2)0.01462 (3)
I40.41517 (2)0.71760 (2)0.57124 (2)0.01730 (4)
Cl10.31958 (7)0.08762 (4)0.56172 (3)0.01759 (10)
O10.5294 (2)0.31342 (10)0.87713 (9)0.0146 (3)
N10.3789 (2)0.40884 (12)0.72295 (11)0.0122 (3)
C10.2998 (3)0.45397 (14)0.65133 (13)0.0151 (4)
H10.28730.52170.65160.018*
C20.2358 (3)0.40311 (15)0.57665 (14)0.0166 (4)
H20.17780.43600.52670.020*
C30.2567 (3)0.30512 (15)0.57515 (14)0.0153 (4)
H30.21500.27050.52390.018*
C40.3397 (3)0.25623 (14)0.64956 (13)0.0117 (4)
C50.3740 (3)0.15615 (14)0.65342 (13)0.0138 (4)
C60.4558 (3)0.11316 (14)0.72781 (14)0.0172 (4)
H60.47930.04620.72860.021*
C70.5055 (3)0.16687 (14)0.80322 (14)0.0166 (4)
H70.55970.13560.85470.020*
C80.4766 (3)0.26435 (14)0.80322 (13)0.0129 (4)
C90.3973 (3)0.30951 (14)0.72569 (12)0.0110 (3)
C100.4431 (3)0.40542 (14)0.87812 (13)0.0140 (4)
H1010.50070.44170.92950.017*
H1020.31540.39610.88030.017*
C110.4574 (3)0.46079 (14)0.79981 (13)0.0122 (4)
C120.5393 (3)0.54442 (14)0.79424 (13)0.0137 (4)
H120.54040.56920.73910.016*
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
I10.01625 (7)0.01324 (6)0.01395 (6)0.00313 (5)0.00358 (5)0.00033 (5)
I20.01699 (7)0.01690 (6)0.01509 (7)0.00253 (5)0.00264 (5)0.00017 (5)
I30.01396 (6)0.01403 (6)0.01650 (7)0.00317 (5)0.00456 (5)0.00226 (5)
I40.02154 (7)0.01424 (6)0.01651 (7)0.00171 (5)0.00477 (6)0.00024 (5)
Cl10.0181 (2)0.0159 (2)0.0182 (2)0.00220 (18)0.00227 (19)0.00602 (18)
O10.0193 (7)0.0118 (6)0.0118 (7)0.0022 (5)0.0013 (6)0.0010 (5)
N10.0136 (8)0.0117 (7)0.0114 (8)0.0001 (6)0.0033 (6)0.0008 (6)
C10.0169 (9)0.0137 (8)0.0145 (9)0.0020 (7)0.0024 (8)0.0026 (7)
C20.0173 (10)0.0192 (9)0.0128 (9)0.0016 (8)0.0017 (8)0.0022 (8)
C30.0133 (9)0.0192 (9)0.0135 (9)0.0011 (8)0.0025 (8)0.0016 (8)
C40.0089 (8)0.0133 (8)0.0135 (9)0.0014 (7)0.0034 (7)0.0002 (7)
C50.0131 (9)0.0129 (8)0.0163 (9)0.0023 (7)0.0050 (8)0.0036 (7)
C60.0189 (10)0.0110 (8)0.0218 (11)0.0008 (7)0.0040 (9)0.0012 (8)
C70.0191 (10)0.0142 (9)0.0161 (10)0.0014 (8)0.0030 (8)0.0030 (7)
C80.0123 (8)0.0126 (8)0.0137 (9)0.0008 (7)0.0023 (7)0.0010 (7)
C90.0102 (8)0.0114 (8)0.0119 (9)0.0007 (7)0.0033 (7)0.0003 (7)
C100.0158 (9)0.0116 (8)0.0148 (9)0.0001 (7)0.0040 (8)0.0000 (7)
C110.0135 (9)0.0117 (8)0.0112 (8)0.0007 (7)0.0018 (7)0.0020 (7)
C120.0151 (9)0.0128 (8)0.0133 (9)0.0009 (7)0.0032 (8)0.0010 (7)
Geometric parameters (Å, º) top
I1—C122.082 (2)C3—H30.9500
I2—I33.0048 (2)C4—C51.419 (3)
I3—I42.8708 (2)C4—C91.420 (3)
Cl1—C51.731 (2)C5—C61.367 (3)
O1—C81.356 (2)C6—C71.407 (3)
O1—C101.443 (2)C6—H60.9500
N1—C11.340 (3)C7—C81.377 (3)
N1—C91.392 (2)C7—H70.9500
N1—C111.450 (3)C8—C91.414 (3)
C1—C21.391 (3)C10—C111.496 (3)
C1—H10.9500C10—H1010.9900
C2—C31.377 (3)C10—H1020.9900
C2—H20.9500C11—C121.334 (3)
C3—C41.408 (3)C12—H120.9500
I4—I3—I2176.897 (6)C7—C6—H6119.6
C8—O1—C10113.73 (15)C8—C7—C6120.67 (19)
C1—N1—C9121.30 (17)C8—C7—H7119.7
C1—N1—C11121.96 (17)C6—C7—H7119.7
C9—N1—C11116.66 (16)O1—C8—C7118.60 (18)
N1—C1—C2121.02 (19)O1—C8—C9122.72 (17)
N1—C1—H1119.5C7—C8—C9118.66 (19)
C2—C1—H1119.5N1—C9—C8119.55 (17)
C3—C2—C1119.96 (19)N1—C9—C4118.81 (17)
C3—C2—H2120.0C8—C9—C4121.62 (18)
C1—C2—H2120.0O1—C10—C11109.83 (17)
C2—C3—C4119.99 (19)O1—C10—H101109.7
C2—C3—H3120.0C11—C10—H101109.7
C4—C3—H3120.0O1—C10—H102109.7
C3—C4—C5124.10 (19)C11—C10—H102109.7
C3—C4—C9118.81 (18)H101—C10—H102108.2
C5—C4—C9117.08 (18)C12—C11—N1119.93 (18)
C6—C5—C4121.13 (19)C12—C11—C10128.45 (19)
C6—C5—Cl1119.11 (16)N1—C11—C10111.49 (16)
C4—C5—Cl1119.72 (16)C11—C12—I1123.66 (16)
C5—C6—C7120.76 (19)C11—C12—H12118.2
C5—C6—H6119.6I1—C12—H12118.2
 

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