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Acta Cryst. (2019). C75, 402-411
https://doi.org/10.1107/S2053229619002961
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Inter­play of noncovalent inter­actions in anti­septic quaternary ammonium surfactant Miramistin

F. M. Dolgushin, A. S. Goloveshkin, I. V. Ananyev, S. V. Osintseva, Y. V. Torubaev, S. S. Krylov and A. S. Golub
The mol­ecular and crystal structure of the widely used anti­septic benzyl­dimeth­yl{3-[(1-oxo­tetra­dec­yl)amino]­prop­yl}ammonium chloride monohydrate (Miramistin, MR), C26H47N2O+·Cl·H2O, was determined by a single-crystal X-ray diffraction study and analyzed in the framework of the QTAIM (quantum theory of atoms in mol­ecules) approach using both periodic and mol­ecular DFT (density functional theory) calculations. The various noncovalent inter­molecular inter­actions of different strengths were found to be realized in the hydro­philic parts of the crystal packing (i.e. O—H...Cl, N—H...Cl, C—H...Cl, C—H...O and C—H...π). The hydro­phobic parts are built up exclusively by van der Waals H...H contacts. Qu­anti­fication of the inter­action energies using calculated electron-density distribution revealed that the total energy of the contacts within the hydro­philic and hydro­phobic regions are comparable in value. The organic MR cation adopts the bent conformation with the head group tilted back to the long-chain alkyl tail in both the crystalline and the isolated state due to stabilization of this geometry by several intra­molecular C—H...π, C—H...N and H...H inter­actions. This conformation preference is hypothesized to play an important role in the inter­action of MR with biomembranes.
Keywords: quaternary ammonium surfactant; amphiphilic mol­ecule; crystal structure; hydrogen bonding; hydro­phobic inter­action; periodic DFT calculation; QTAIM; antiseptic.
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Supporting information

cif

Crystallographic Information File (CIF) https://doi.org/10.1107/S2053229619002961/cu3137sup1.cif
Contains datablocks I, global

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S2053229619002961/cu3137Isup2.hkl
Contains datablock I

pdf

Portable Document Format (PDF) file https://doi.org/10.1107/S2053229619002961/cu3137sup3.pdf
Tables S1, S2 and S3

txt

Text file https://doi.org/10.1107/S2053229619002961/cu3137sup4.txt
Fractional coordinates for MR_opt calculated by means of periodic DFT with optimized unit-cell parameters

cml

Chemical Markup Language (CML) file https://doi.org/10.1107/S2053229619002961/cu3137Isup5.cml
Supplementary material

CCDC reference: 1899687

Computing details top

Data collection: APEX2 (Bruker, 2012); cell refinement: SAINT (Bruker, 2012); data reduction: SAINT (Bruker, 2012); program(s) used to solve structure: SHELXS97 (Sheldrick, 2008); program(s) used to refine structure: SHELXL2014 (Sheldrick, 2015); molecular graphics: SHELXTL (Bruker, 2012) and Mercury (Macrae et al., 2008); software used to prepare material for publication: SHELXTL (Bruker, 2012).

Benzyldimethyl{3-[(1-oxotetradecyl)amino]propyl}ammonium chloride monohydrate top
Crystal data top
C26H47N2O+·Cl·H2ODx = 1.127 Mg m3
Mr = 457.12Mo Kα radiation, λ = 0.71073 Å
Orthorhombic, PbcaCell parameters from 6202 reflections
a = 8.8980 (5) Åθ = 2.5–26.1°
b = 13.0356 (8) ŵ = 0.17 mm1
c = 46.455 (3) ÅT = 120 K
V = 5388.4 (6) Å3Prism, colourless
Z = 80.32 × 0.26 × 0.08 mm
F(000) = 2016
Data collection top
Bruker APEXII CCD
diffractometer		4794 reflections with I > 2σ(I)
φ and ω scansRint = 0.067
Absorption correction: multi-scan
(SADABS; Bruker, 2012)		θmax = 28.0°, θmin = 1.8°
Tmin = 0.912, Tmax = 0.987h = 1111
50944 measured reflectionsk = 1717
6501 independent reflectionsl = 6161
Refinement top
Refinement on F20 restraints
Least-squares matrix: fullHydrogen site location: mixed
R[F2 > 2σ(F2)] = 0.047H atoms treated by a mixture of independent and constrained refinement
wR(F2) = 0.122 w = 1/[σ2(Fo2) + (0.0465P)2 + 2.8492P]
where P = (Fo2 + 2Fc2)/3
S = 1.04(Δ/σ)max = 0.001
6501 reflectionsΔρmax = 0.56 e Å3
295 parametersΔρmin = 0.24 e Å3
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
Cl10.12684 (5)0.16321 (3)0.21736 (2)0.02916 (12)
O10.15612 (16)0.09545 (11)0.36654 (3)0.0371 (3)
N10.23609 (16)0.00544 (12)0.32794 (3)0.0250 (3)
H10.282 (2)0.0499 (16)0.3225 (4)0.032 (6)*
N20.23681 (15)0.02847 (10)0.30247 (3)0.0206 (3)
C10.22748 (19)0.02348 (14)0.35617 (4)0.0270 (4)
C20.3155 (2)0.05121 (16)0.37466 (4)0.0357 (5)
H2A0.40150.01460.38340.043*
H2B0.35670.10600.36220.043*
C30.22256 (19)0.10039 (13)0.39850 (3)0.0234 (4)
H3A0.19080.04690.41230.028*
H3B0.13090.13130.39010.028*
C40.31110 (19)0.18280 (14)0.41438 (4)0.0263 (4)
H4A0.38840.14910.42650.032*
H4B0.36400.22590.40010.032*
C50.21525 (19)0.25186 (13)0.43344 (4)0.0235 (4)
H5A0.16280.20900.44790.028*
H5B0.13780.28560.42140.028*
C60.30582 (19)0.33390 (13)0.44899 (4)0.0230 (4)
H6A0.37640.30010.46250.028*
H6B0.36620.37220.43470.028*
C70.20871 (18)0.40961 (12)0.46575 (4)0.0222 (3)
H7A0.14530.37090.47950.027*
H7B0.14090.44520.45210.027*
C80.29848 (18)0.48962 (13)0.48233 (4)0.0233 (4)
H8A0.36490.45410.49620.028*
H8B0.36330.52750.46870.028*
C90.20103 (18)0.56645 (13)0.49866 (4)0.0228 (4)
H9A0.13660.60330.48470.027*
H9B0.13420.52840.51190.027*
C100.29106 (18)0.64497 (12)0.51593 (4)0.0225 (3)
H10A0.35950.68200.50270.027*
H10B0.35370.60830.53020.027*
C110.19280 (19)0.72257 (12)0.53154 (4)0.0227 (3)
H11A0.13100.75950.51720.027*
H11B0.12350.68530.54450.027*
C120.28071 (19)0.80085 (13)0.54918 (4)0.0231 (3)
H12A0.35130.83760.53630.028*
H12B0.34090.76420.56390.028*
C130.1801 (2)0.87889 (13)0.56415 (4)0.0261 (4)
H13A0.10810.84190.57660.031*
H13B0.12130.91620.54940.031*
C140.2656 (2)0.95655 (15)0.58235 (4)0.0358 (4)
H14A0.19461.00530.59090.054*
H14B0.32000.92070.59770.054*
H14C0.33730.99370.57020.054*
C150.17352 (19)0.07153 (14)0.30586 (4)0.0255 (4)
H15A0.25090.08460.29100.031*
H15B0.14590.13820.31460.031*
C160.03452 (19)0.02447 (13)0.29156 (4)0.0242 (4)
H16A0.00570.06560.27450.029*
H16B0.05740.04620.28510.029*
C170.09383 (18)0.02249 (13)0.31294 (3)0.0212 (3)
H17A0.11770.09400.31850.025*
H17B0.05950.01360.33050.025*
C180.35839 (19)0.00420 (13)0.32380 (4)0.0260 (4)
H18A0.37780.06980.32380.039*
H18B0.32640.02560.34310.039*
H18C0.45040.04090.31850.039*
C190.2847 (2)0.01383 (14)0.27381 (4)0.0294 (4)
H19A0.28270.08900.27450.044*
H19B0.38690.00950.26940.044*
H19C0.21570.01040.25880.044*
C200.22035 (19)0.14464 (12)0.29902 (3)0.0225 (3)
H20A0.31460.17230.29080.027*
H20B0.13870.15850.28510.027*
C210.1866 (2)0.20083 (12)0.32645 (4)0.0228 (3)
C220.3036 (2)0.23497 (13)0.34411 (4)0.0270 (4)
H22A0.40470.22100.33890.032*
C230.2741 (2)0.28896 (14)0.36918 (4)0.0332 (4)
H23A0.35440.31130.38110.040*
C240.1265 (2)0.31010 (14)0.37674 (4)0.0354 (5)
H24A0.10580.34630.39400.042*
C250.0091 (2)0.27881 (13)0.35922 (4)0.0326 (4)
H25A0.09160.29460.36440.039*
C260.0386 (2)0.22432 (13)0.33408 (4)0.0271 (4)
H26A0.04210.20300.32210.032*
O1W0.42458 (19)0.29093 (12)0.23810 (4)0.0429 (4)
H1W0.471 (3)0.2569 (17)0.2509 (5)0.044 (7)*
H2W0.352 (3)0.254 (2)0.2332 (6)0.066 (9)*
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
Cl10.0264 (2)0.0268 (2)0.0343 (2)0.00094 (17)0.00069 (18)0.00165 (18)
O10.0445 (8)0.0400 (8)0.0269 (7)0.0031 (7)0.0014 (6)0.0009 (6)
N10.0204 (7)0.0253 (8)0.0292 (8)0.0032 (6)0.0002 (6)0.0056 (6)
N20.0216 (7)0.0207 (7)0.0193 (7)0.0035 (6)0.0004 (5)0.0013 (5)
C10.0214 (8)0.0301 (9)0.0296 (9)0.0048 (7)0.0004 (7)0.0091 (8)
C20.0251 (9)0.0475 (12)0.0344 (10)0.0001 (8)0.0009 (8)0.0176 (9)
C30.0258 (9)0.0240 (8)0.0205 (8)0.0033 (7)0.0018 (7)0.0031 (7)
C40.0232 (9)0.0305 (9)0.0253 (9)0.0020 (7)0.0013 (7)0.0076 (7)
C50.0218 (8)0.0252 (8)0.0237 (8)0.0021 (7)0.0012 (7)0.0052 (7)
C60.0214 (8)0.0244 (8)0.0234 (8)0.0008 (7)0.0006 (6)0.0046 (7)
C70.0200 (8)0.0220 (8)0.0244 (8)0.0014 (7)0.0008 (6)0.0052 (7)
C80.0214 (8)0.0231 (8)0.0254 (9)0.0013 (7)0.0004 (7)0.0041 (7)
C90.0208 (8)0.0227 (8)0.0250 (9)0.0014 (7)0.0001 (7)0.0046 (7)
C100.0209 (8)0.0214 (8)0.0252 (9)0.0018 (6)0.0004 (7)0.0033 (7)
C110.0210 (8)0.0216 (8)0.0255 (9)0.0009 (6)0.0013 (7)0.0038 (7)
C120.0218 (8)0.0236 (8)0.0241 (8)0.0021 (7)0.0005 (7)0.0036 (7)
C130.0268 (9)0.0240 (9)0.0275 (9)0.0003 (7)0.0013 (7)0.0050 (7)
C140.0398 (11)0.0300 (10)0.0377 (11)0.0020 (9)0.0011 (9)0.0109 (8)
C150.0245 (9)0.0274 (9)0.0247 (9)0.0022 (7)0.0023 (7)0.0057 (7)
C160.0244 (9)0.0275 (9)0.0206 (8)0.0008 (7)0.0017 (7)0.0012 (7)
C170.0210 (8)0.0210 (8)0.0215 (8)0.0005 (6)0.0003 (6)0.0025 (6)
C180.0228 (9)0.0259 (9)0.0292 (9)0.0039 (7)0.0038 (7)0.0047 (7)
C190.0334 (10)0.0296 (9)0.0252 (9)0.0045 (8)0.0072 (8)0.0036 (7)
C200.0250 (9)0.0196 (8)0.0228 (8)0.0018 (7)0.0015 (7)0.0040 (6)
C210.0283 (9)0.0175 (8)0.0224 (8)0.0002 (7)0.0025 (7)0.0045 (6)
C220.0318 (10)0.0212 (8)0.0280 (9)0.0000 (7)0.0004 (7)0.0048 (7)
C230.0481 (12)0.0252 (9)0.0263 (9)0.0044 (8)0.0035 (9)0.0021 (8)
C240.0582 (13)0.0239 (9)0.0240 (9)0.0018 (9)0.0092 (9)0.0009 (7)
C250.0415 (11)0.0214 (9)0.0348 (10)0.0008 (8)0.0152 (9)0.0037 (7)
C260.0290 (9)0.0199 (8)0.0322 (9)0.0022 (7)0.0042 (8)0.0033 (7)
O1W0.0444 (9)0.0361 (8)0.0481 (9)0.0032 (7)0.0182 (8)0.0076 (7)
Geometric parameters (Å, º) top
O1—C11.231 (2)C12—C131.523 (2)
N1—C11.335 (2)C12—H12A0.9900
N1—C151.451 (2)C12—H12B0.9900
N1—H10.87 (2)C13—C141.523 (2)
N2—C181.501 (2)C13—H13A0.9900
N2—C191.503 (2)C13—H13B0.9900
N2—C171.515 (2)C14—H14A0.9800
N2—C201.530 (2)C14—H14B0.9800
C1—C21.516 (2)C14—H14C0.9800
C2—C31.524 (2)C15—C161.532 (2)
C2—H2A0.9900C15—H15A0.9900
C2—H2B0.9900C15—H15B0.9900
C3—C41.523 (2)C16—C171.514 (2)
C3—H3A0.9900C16—H16A0.9900
C3—H3B0.9900C16—H16B0.9900
C4—C51.524 (2)C17—H17A0.9900
C4—H4A0.9900C17—H17B0.9900
C4—H4B0.9900C18—H18A0.9800
C5—C61.521 (2)C18—H18B0.9800
C5—H5A0.9900C18—H18C0.9800
C5—H5B0.9900C19—H19A0.9800
C6—C71.525 (2)C19—H19B0.9800
C6—H6A0.9900C19—H19C0.9800
C6—H6B0.9900C20—C211.500 (2)
C7—C81.523 (2)C20—H20A0.9900
C7—H7A0.9900C20—H20B0.9900
C7—H7B0.9900C21—C221.398 (2)
C8—C91.526 (2)C21—C261.398 (2)
C8—H8A0.9900C22—C231.386 (2)
C8—H8B0.9900C22—H22A0.9500
C9—C101.527 (2)C23—C241.387 (3)
C9—H9A0.9900C23—H23A0.9500
C9—H9B0.9900C24—C251.386 (3)
C10—C111.521 (2)C24—H24A0.9500
C10—H10A0.9900C25—C261.392 (3)
C10—H10B0.9900C25—H25A0.9500
C11—C121.525 (2)C26—H26A0.9500
C11—H11A0.9900O1W—H1W0.85 (2)
C11—H11B0.9900O1W—H2W0.84 (3)
C1—N1—C15124.62 (16)C13—C12—H12A109.0
C1—N1—H1117.6 (13)C11—C12—H12A109.0
C15—N1—H1117.8 (13)C13—C12—H12B109.0
C18—N2—C19107.66 (13)C11—C12—H12B109.0
C18—N2—C17107.50 (12)H12A—C12—H12B107.8
C19—N2—C17111.21 (13)C14—C13—C12113.80 (15)
C18—N2—C20110.28 (13)C14—C13—H13A108.8
C19—N2—C20107.32 (12)C12—C13—H13A108.8
C17—N2—C20112.77 (12)C14—C13—H13B108.8
O1—C1—N1123.26 (16)C12—C13—H13B108.8
O1—C1—C2122.30 (17)H13A—C13—H13B107.7
N1—C1—C2114.44 (16)C13—C14—H14A109.5
C1—C2—C3113.65 (15)C13—C14—H14B109.5
C1—C2—H2A108.8H14A—C14—H14B109.5
C3—C2—H2A108.8C13—C14—H14C109.5
C1—C2—H2B108.8H14A—C14—H14C109.5
C3—C2—H2B108.8H14B—C14—H14C109.5
H2A—C2—H2B107.7N1—C15—C16112.24 (14)
C4—C3—C2111.59 (14)N1—C15—H15A109.2
C4—C3—H3A109.3C16—C15—H15A109.2
C2—C3—H3A109.3N1—C15—H15B109.2
C4—C3—H3B109.3C16—C15—H15B109.2
C2—C3—H3B109.3H15A—C15—H15B107.9
H3A—C3—H3B108.0C17—C16—C15109.36 (13)
C3—C4—C5114.12 (14)C17—C16—H16A109.8
C3—C4—H4A108.7C15—C16—H16A109.8
C5—C4—H4A108.7C17—C16—H16B109.8
C3—C4—H4B108.7C15—C16—H16B109.8
C5—C4—H4B108.7H16A—C16—H16B108.3
H4A—C4—H4B107.6C16—C17—N2115.48 (13)
C6—C5—C4113.24 (14)C16—C17—H17A108.4
C6—C5—H5A108.9N2—C17—H17A108.4
C4—C5—H5A108.9C16—C17—H17B108.4
C6—C5—H5B108.9N2—C17—H17B108.4
C4—C5—H5B108.9H17A—C17—H17B107.5
H5A—C5—H5B107.7N2—C18—H18A109.5
C5—C6—C7113.39 (14)N2—C18—H18B109.5
C5—C6—H6A108.9H18A—C18—H18B109.5
C7—C6—H6A108.9N2—C18—H18C109.5
C5—C6—H6B108.9H18A—C18—H18C109.5
C7—C6—H6B108.9H18B—C18—H18C109.5
H6A—C6—H6B107.7N2—C19—H19A109.5
C8—C7—C6113.84 (13)N2—C19—H19B109.5
C8—C7—H7A108.8H19A—C19—H19B109.5
C6—C7—H7A108.8N2—C19—H19C109.5
C8—C7—H7B108.8H19A—C19—H19C109.5
C6—C7—H7B108.8H19B—C19—H19C109.5
H7A—C7—H7B107.7C21—C20—N2114.44 (13)
C7—C8—C9113.75 (14)C21—C20—H20A108.7
C7—C8—H8A108.8N2—C20—H20A108.7
C9—C8—H8A108.8C21—C20—H20B108.7
C7—C8—H8B108.8N2—C20—H20B108.7
C9—C8—H8B108.8H20A—C20—H20B107.6
H8A—C8—H8B107.7C22—C21—C26118.88 (16)
C8—C9—C10113.74 (13)C22—C21—C20120.33 (16)
C8—C9—H9A108.8C26—C21—C20120.72 (16)
C10—C9—H9A108.8C23—C22—C21120.94 (18)
C8—C9—H9B108.8C23—C22—H22A119.5
C10—C9—H9B108.8C21—C22—H22A119.5
H9A—C9—H9B107.7C22—C23—C24119.53 (18)
C11—C10—C9113.24 (14)C22—C23—H23A120.2
C11—C10—H10A108.9C24—C23—H23A120.2
C9—C10—H10A108.9C25—C24—C23120.43 (17)
C11—C10—H10B108.9C25—C24—H24A119.8
C9—C10—H10B108.9C23—C24—H24A119.8
H10A—C10—H10B107.7C24—C25—C26120.06 (18)
C10—C11—C12113.98 (14)C24—C25—H25A120.0
C10—C11—H11A108.8C26—C25—H25A120.0
C12—C11—H11A108.8C25—C26—C21120.14 (18)
C10—C11—H11B108.8C25—C26—H26A119.9
C12—C11—H11B108.8C21—C26—H26A119.9
H11A—C11—H11B107.7H1W—O1W—H2W105 (2)
C13—C12—C11112.99 (14)
C15—N1—C1—O15.0 (3)C15—C16—C17—N2176.22 (13)
C15—N1—C1—C2173.97 (15)C18—N2—C17—C16168.65 (14)
O1—C1—C2—C353.7 (2)C19—N2—C17—C1651.03 (18)
N1—C1—C2—C3127.30 (17)C20—N2—C17—C1669.58 (18)
C1—C2—C3—C4173.97 (16)C18—N2—C20—C2157.63 (18)
C2—C3—C4—C5166.28 (16)C19—N2—C20—C21174.63 (14)
C3—C4—C5—C6179.74 (14)C17—N2—C20—C2162.56 (18)
C4—C5—C6—C7174.34 (14)N2—C20—C21—C2288.08 (19)
C5—C6—C7—C8177.77 (14)N2—C20—C21—C2695.07 (18)
C6—C7—C8—C9178.97 (14)C26—C21—C22—C231.6 (2)
C7—C8—C9—C10178.48 (14)C20—C21—C22—C23178.54 (15)
C8—C9—C10—C11178.69 (14)C21—C22—C23—C240.5 (3)
C9—C10—C11—C12179.35 (14)C22—C23—C24—C250.9 (3)
C10—C11—C12—C13178.92 (14)C23—C24—C25—C261.1 (3)
C11—C12—C13—C14178.88 (15)C24—C25—C26—C210.1 (3)
C1—N1—C15—C16107.98 (19)C22—C21—C26—C251.4 (2)
N1—C15—C16—C1769.21 (18)C20—C21—C26—C25178.32 (15)
Hydrogen-bond geometry (Å, º) top
D—H···AD—HH···AD···AD—H···A
N1—H1···Cl1i0.87 (2)2.50 (2)3.2786 (16)149.3 (16)
O1W—H1W···Cl1ii0.85 (2)2.36 (2)3.2081 (19)173 (2)
O1W—H2W···Cl10.84 (3)2.44 (3)3.2740 (18)174 (3)
Symmetry codes: (i) x1/2, y, z+1/2; (ii) x+1/2, y, z+1/2.
Integral characteristics of the intermolecular interactions in the optimized crystal structure MR_opt top
InteractionNumber of contactsD···A, H···H (Å)E (kcal mol-1)ΣE (kcal mol-1)
Ow—H···Cl23.198, 3.283-5.5, -4.3-9.8
N—H···Cl13.272-4.2-4.2
C—H···Cl93.627–4.461-0.7 to -1.9-9.8
C—H···Ow63.511–3.687-0.5 to -1.6-5.2
C—H···OCO43.493–4.006-0.4 to -1.6-3.1
C—H···Cπ43.586–3.938-0.4 to -1.5-3.4
C—H···HPh72.205–2.849-0.2 to -1.1-3.0
H···H(parallel tails)362.385–2.898-0.3 to -0.7-18.6
H···H(antiparallel tails)322.355–2.839-0.2 to -0.7-16.4
 

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