organic compounds\(\def\hfill{\hskip 5em}\def\hfil{\hskip 3em}\def\eqno#1{\hfil {#1}}\)

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ISSN: 2056-9890

N-(3-Chloro­phen­yl)-2-methyl­benzamide

aDepartment of Chemistry, Mangalore University, Mangalagangotri 574 199, Mangalore, India, and bInstitute of Materials Science, Darmstadt University of Technology, Petersenstrasse 23, D-64287 Darmstadt, Germany
*Correspondence e-mail: gowdabt@yahoo.com

(Received 8 April 2008; accepted 14 April 2008; online 16 April 2008)

The conformation of the N—H bond in the structure of the title compound, C14H12ClNO, is anti to the meta-chloro substituent in the aniline ring, while the C=O bond is syn to the ortho-methyl substituent in the benzoyl ring. The conformations of the N—H and C=O bonds are anti to each other, similar to those observed in 2-methyl-N-(3-methyl­phen­yl)benzamide (N3MP2MBA). The –NHC(=O)– group makes a dihedral angle of 55.8 (7)° with the benzoyl ring, while the angle between the benzoyl and aniline rings is 37.5 (1)°; the respective values for N3MP2MBA are 55.2 (7) and 36.2 (1)°. N—H⋯O hydrogen bonds link the mol­ecules into infinite chains running along the c axis.

Related literature

For related literature, see: Gowda et al. (2003[Gowda, B. T., Jyothi, K., Paulus, H. & Fuess, H. (2003). Z. Naturforsch. Teil A, 58, 225-230.], 2008a[Gowda, B. T., Foro, S., Sowmya, B. P. & Fuess, H. (2008a). Acta Cryst. E64, o383.],b[Gowda, B. T., Foro, S., Sowmya, B. P. & Fuess, H. (2008b). Acta Cryst. E64, o541.]).

[Scheme 1]

Experimental

Crystal data
  • C14H12ClNO

  • Mr = 245.70

  • Tetragonal, P 43

  • a = 8.8237 (8) Å

  • c = 15.977 (2) Å

  • V = 1243.9 (2) Å3

  • Z = 4

  • Cu Kα radiation

  • μ = 2.57 mm−1

  • T = 299 (2) K

  • 0.60 × 0.10 × 0.07 mm

Data collection
  • Enraf–Nonius CAD-4 diffractometer

  • Absorption correction: ψ scan (North et al., 1968[North, A. C. T., Phillips, D. C. & Mathews, F. S. (1968). Acta Cryst. A24, 351-359.]) Tmin = 0.308, Tmax = 0.841

  • 4144 measured reflections

  • 2173 independent reflections

  • 1844 reflections with I > 2σ(I)

  • Rint = 0.036

  • 3 standard reflections frequency: 120 min intensity decay: none

Refinement
  • R[F2 > 2σ(F2)] = 0.042

  • wR(F2) = 0.120

  • S = 1.07

  • 2173 reflections

  • 159 parameters

  • 1 restraint

  • H atoms treated by a mixture of independent and constrained refinement

  • Δρmax = 0.18 e Å−3

  • Δρmin = −0.29 e Å−3

  • Absolute structure: Flack (1983[Flack, H. D. (1983). Acta Cryst. A39, 876-881.]), 1020 Friedel pairs

  • Flack parameter: 0.00 (2)

Table 1
Hydrogen-bond geometry (Å, °)

D—H⋯A D—H H⋯A DA D—H⋯A
N1—H1N⋯O1i 0.83 (4) 2.12 (4) 2.900 (3) 157 (3)
Symmetry code: (i) [-y+1, x, z-{\script{1\over 4}}].

Data collection: CAD-4-PC (Enraf–Nonius, 1996[Enraf-Nonius (1996). CAD-4-PC. Enraf-Nonius, Delft, The Netherlands.]); cell refinement: CAD-4-PC; data reduction: REDU4 (Stoe & Cie, 1987[Stoe & Cie (1987). REDU4. Stoe & Cie GmbH, Darmstadt, Germany.]); program(s) used to solve structure: SHELXS97 (Sheldrick, 2008[Sheldrick, G. M. (2008). Acta Cryst. A64, 112-122.]); program(s) used to refine structure: SHELXL97 (Sheldrick, 2008[Sheldrick, G. M. (2008). Acta Cryst. A64, 112-122.]); molecular graphics: PLATON (Spek, 2003[Spek, A. L. (2003). J. Appl. Cryst. 36, 7-13.]); software used to prepare material for publication: SHELXL97.

Supporting information


Comment top

In the present work, the structure of 2-methyl-N-(3-chlorophenyl)- benzamide (N3CP2MBA) has been determined as part of substituent effect studies on the solid state structures of benzanilides (Gowda et al., 2003; Gowda et al. (2008a, 2008b). The conformation of the N—H bond in N3CP2MBA (Fig. 1) is anti to the meta-chloro substituent in the aniline ring, while the C=O bond is syn to the ortho-methyl substituent in the benzoyl ring and the conformations of the N—H and C=O bonds are anti to each other, identical to that observed in 2-methyl-N-(3-methylphenyl)-benzamide (N3MP2MBA). The bond parameters in N3CP2MBA are similar to those in 2-methyl-N-(phenyl)-benzamide (Gowda et al., 2008a), N3MP2MBA (Gowda et al., 2008b) and other benzanilides (Gowda et al., 2003). The amide group, –NHCO– makes a dihedral angle of 55.8 (7)° with the benzoyl ring, while that between benzoyl and aniline rings is 37.5 (1)°, compared to the respective values of 55.2 (7)° and 36.2 (1)° for N3MP2MBA. The packing diagram of N3CP2MBA showing the hydrogen bonds N1—H1N···O1 (Table 1) is given in Fig. 2.

Related literature top

For related literature, see: Gowda et al. (2003, 2008a,b).

Experimental top

The title compound was prepared according to the literature method (Gowda et al., 2003). The purity of the compound was checked by determining its melting point. It was characterized by recording its infrared and NMR spectra. Single crystals of the title compound were obtained from an ethanolic solution and used for X-ray diffraction studies at room temperature.

Refinement top

The H on N1 was located in difference map and its position freely refined. The other H atoms were positioned with idealized geometry using a riding model with C—H = 0.93–0.96 Å and were refined with isotropic displacement parameters (set to 1.2 times of the Ueq of the parent atom).

Computing details top

Data collection: CAD-4-PC (Enraf–Nonius, 1996); cell refinement: CAD-4-PC (Enraf–Nonius, 1996); data reduction: REDU4 (Stoe & Cie, 1987); program(s) used to solve structure: SHELXS97 (Sheldrick, 2008); program(s) used to refine structure: SHELXL97 (Sheldrick, 2008); molecular graphics: PLATON (Spek, 2003); software used to prepare material for publication: SHELXL97 (Sheldrick, 2008).

Figures top
[Figure 1] Fig. 1. Molecular structure of the title compound, showing the atom labeling. Displacement ellipsoids drawn at the 50% probability level.
[Figure 2] Fig. 2. Molecular packing of the title compound as viewed down a and with hydrogen bonding shown as dashed lines.
N-(3-Chlorophenyl)-2-methylbenzamide top
Crystal data top
C14H12ClNODx = 1.312 Mg m3
Mr = 245.70Cu Kα radiation, λ = 1.54180 Å
Tetragonal, P43Cell parameters from 25 reflections
Hall symbol: P 4cwθ = 5.7–21.9°
a = 8.8237 (8) ŵ = 2.57 mm1
c = 15.977 (2) ÅT = 299 K
V = 1243.9 (2) Å3Rod, colourless
Z = 40.60 × 0.10 × 0.07 mm
F(000) = 512
Data collection top
Enraf–Nonius CAD-4
diffractometer
1844 reflections with I > 2σ(I)
Radiation source: fine-focus sealed tubeRint = 0.036
Graphite monochromatorθmax = 66.9°, θmin = 5.0°
ω/2θ scansh = 1010
Absorption correction: psi-scan
(North et al., 1968)
k = 101
Tmin = 0.308, Tmax = 0.841l = 1916
4144 measured reflections3 standard reflections every 120 min
2173 independent reflections intensity decay: none
Refinement top
Refinement on F2Hydrogen site location: inferred from neighbouring sites
Least-squares matrix: fullH atoms treated by a mixture of independent and constrained refinement
R[F2 > 2σ(F2)] = 0.042 w = 1/[σ2(Fo2) + (0.0774P)2 + 0.019P]
where P = (Fo2 + 2Fc2)/3
wR(F2) = 0.120(Δ/σ)max = 0.025
S = 1.07Δρmax = 0.19 e Å3
2173 reflectionsΔρmin = 0.29 e Å3
159 parametersExtinction correction: SHELXL97 (Sheldrick, 2008), Fc*=kFc[1+0.001xFc2λ3/sin(2θ)]-1/4
1 restraintExtinction coefficient: 0.0079 (12)
Primary atom site location: structure-invariant direct methodsAbsolute structure: Flack (1983), 1020 Friedel pairs
Secondary atom site location: difference Fourier mapAbsolute structure parameter: 0.00 (2)
Crystal data top
C14H12ClNOZ = 4
Mr = 245.70Cu Kα radiation
Tetragonal, P43µ = 2.57 mm1
a = 8.8237 (8) ÅT = 299 K
c = 15.977 (2) Å0.60 × 0.10 × 0.07 mm
V = 1243.9 (2) Å3
Data collection top
Enraf–Nonius CAD-4
diffractometer
1844 reflections with I > 2σ(I)
Absorption correction: psi-scan
(North et al., 1968)
Rint = 0.036
Tmin = 0.308, Tmax = 0.8413 standard reflections every 120 min
4144 measured reflections intensity decay: none
2173 independent reflections
Refinement top
R[F2 > 2σ(F2)] = 0.042H atoms treated by a mixture of independent and constrained refinement
wR(F2) = 0.120Δρmax = 0.19 e Å3
S = 1.07Δρmin = 0.29 e Å3
2173 reflectionsAbsolute structure: Flack (1983), 1020 Friedel pairs
159 parametersAbsolute structure parameter: 0.00 (2)
1 restraint
Special details top

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.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/Ueq
C10.6762 (3)0.7532 (3)0.05087 (15)0.0463 (6)
C20.7849 (3)0.7433 (3)0.11372 (17)0.0528 (6)
H20.83360.65210.12490.063*
C30.8186 (4)0.8716 (4)0.15884 (17)0.0627 (8)
C40.7505 (5)1.0087 (4)0.1436 (2)0.0763 (10)
H40.77621.09400.17470.092*
C50.6440 (5)1.0169 (4)0.0815 (2)0.0831 (11)
H50.59631.10880.07050.100*
C60.6061 (4)0.8896 (3)0.0346 (2)0.0673 (8)
H60.53370.89650.00750.081*
C70.6591 (3)0.4810 (3)0.01510 (14)0.0452 (5)
C80.5994 (3)0.3752 (3)0.05047 (17)0.0516 (6)
C90.6935 (4)0.2659 (3)0.08605 (18)0.0644 (8)
C100.6279 (6)0.1643 (4)0.1412 (2)0.0887 (12)
H100.68850.08970.16500.106*
C110.4808 (7)0.1690 (4)0.1617 (3)0.0992 (14)
H110.44150.09840.19910.119*
C120.3864 (5)0.2793 (5)0.1272 (3)0.0955 (13)
H120.28410.28260.14110.115*
C130.4472 (4)0.3834 (4)0.0721 (2)0.0695 (8)
H130.38630.45910.04950.083*
C140.8575 (5)0.2539 (5)0.0653 (3)0.0923 (12)
H14A0.86930.24140.00590.111*
H14B0.90880.34440.08280.111*
H14C0.90030.16800.09360.111*
N10.6388 (3)0.6279 (2)0.00053 (14)0.0488 (5)
H1N0.594 (4)0.650 (3)0.045 (2)0.059*
O10.7197 (2)0.4315 (2)0.07953 (11)0.0598 (5)
Cl10.95205 (13)0.85850 (13)0.23813 (6)0.0996 (4)
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
C10.0581 (14)0.0483 (13)0.0324 (12)0.0062 (11)0.0045 (10)0.0009 (10)
C20.0615 (15)0.0546 (14)0.0421 (13)0.0076 (11)0.0013 (11)0.0021 (11)
C30.0766 (18)0.0721 (19)0.0394 (15)0.0252 (15)0.0044 (13)0.0071 (13)
C40.115 (3)0.0605 (18)0.0538 (19)0.0194 (18)0.0127 (18)0.0145 (15)
C50.125 (3)0.0505 (15)0.074 (2)0.0089 (18)0.012 (2)0.0043 (16)
C60.092 (2)0.0568 (16)0.0532 (17)0.0043 (14)0.0034 (16)0.0023 (13)
C70.0528 (13)0.0500 (13)0.0327 (13)0.0022 (10)0.0041 (10)0.0020 (10)
C80.0721 (17)0.0465 (13)0.0361 (13)0.0069 (11)0.0036 (11)0.0030 (10)
C90.094 (2)0.0559 (15)0.0434 (15)0.0070 (15)0.0037 (14)0.0022 (12)
C100.149 (4)0.0572 (18)0.059 (2)0.006 (2)0.020 (2)0.0159 (15)
C110.162 (4)0.064 (2)0.071 (2)0.034 (3)0.034 (3)0.0049 (18)
C120.103 (3)0.095 (3)0.089 (3)0.039 (2)0.039 (2)0.009 (2)
C130.0712 (19)0.0665 (17)0.071 (2)0.0106 (15)0.0094 (15)0.0044 (15)
C140.099 (3)0.109 (3)0.069 (2)0.035 (2)0.0100 (19)0.012 (2)
N10.0627 (13)0.0512 (11)0.0324 (10)0.0005 (9)0.0063 (10)0.0014 (9)
O10.0893 (13)0.0559 (10)0.0342 (10)0.0054 (9)0.0073 (9)0.0033 (8)
Cl10.1114 (7)0.1195 (8)0.0678 (6)0.0442 (6)0.0276 (5)0.0081 (5)
Geometric parameters (Å, º) top
C1—C61.377 (4)C8—C131.388 (4)
C1—C21.391 (4)C8—C91.394 (4)
C1—N11.416 (3)C9—C101.384 (5)
C2—C31.374 (4)C9—C141.488 (5)
C2—H20.9300C10—C111.339 (7)
C3—C41.373 (5)C10—H100.9300
C3—Cl11.734 (3)C11—C121.394 (7)
C4—C51.368 (6)C11—H110.9300
C4—H40.9300C12—C131.382 (5)
C5—C61.392 (5)C12—H120.9300
C5—H50.9300C13—H130.9300
C6—H60.9300C14—H14A0.9600
C7—O11.240 (3)C14—H14B0.9600
C7—N11.332 (3)C14—H14C0.9600
C7—C81.499 (3)N1—H1N0.83 (4)
C6—C1—C2120.0 (2)C10—C9—C8117.3 (3)
C6—C1—N1117.9 (2)C10—C9—C14120.2 (3)
C2—C1—N1122.0 (2)C8—C9—C14122.5 (3)
C3—C2—C1118.4 (3)C11—C10—C9122.8 (4)
C3—C2—H2120.8C11—C10—H10118.6
C1—C2—H2120.8C9—C10—H10118.6
C4—C3—C2122.6 (3)C10—C11—C12120.3 (3)
C4—C3—Cl1119.1 (2)C10—C11—H11119.9
C2—C3—Cl1118.4 (3)C12—C11—H11119.9
C5—C4—C3118.4 (3)C13—C12—C11118.9 (4)
C5—C4—H4120.8C13—C12—H12120.5
C3—C4—H4120.8C11—C12—H12120.5
C4—C5—C6120.8 (3)C12—C13—C8120.0 (4)
C4—C5—H5119.6C12—C13—H13120.0
C6—C5—H5119.6C8—C13—H13120.0
C1—C6—C5119.7 (3)C9—C14—H14A109.5
C1—C6—H6120.1C9—C14—H14B109.5
C5—C6—H6120.1H14A—C14—H14B109.5
O1—C7—N1123.8 (2)C9—C14—H14C109.5
O1—C7—C8120.8 (2)H14A—C14—H14C109.5
N1—C7—C8115.3 (2)H14B—C14—H14C109.5
C13—C8—C9120.7 (3)C7—N1—C1128.3 (2)
C13—C8—C7118.8 (3)C7—N1—H1N117 (2)
C9—C8—C7120.5 (3)C1—N1—H1N115 (2)
C6—C1—C2—C30.5 (4)C7—C8—C9—C10174.9 (3)
N1—C1—C2—C3177.7 (2)C13—C8—C9—C14179.4 (3)
C1—C2—C3—C40.8 (4)C7—C8—C9—C143.6 (4)
C1—C2—C3—Cl1179.1 (2)C8—C9—C10—C110.9 (5)
C2—C3—C4—C50.7 (5)C14—C9—C10—C11179.5 (4)
Cl1—C3—C4—C5179.2 (3)C9—C10—C11—C120.0 (6)
C3—C4—C5—C60.4 (5)C10—C11—C12—C130.3 (6)
C2—C1—C6—C50.3 (5)C11—C12—C13—C81.4 (6)
N1—C1—C6—C5177.5 (3)C9—C8—C13—C122.3 (5)
C4—C5—C6—C10.2 (6)C7—C8—C13—C12174.7 (3)
O1—C7—C8—C13121.7 (3)O1—C7—N1—C11.7 (4)
N1—C7—C8—C1356.8 (3)C8—C7—N1—C1176.9 (2)
O1—C7—C8—C955.2 (3)C6—C1—N1—C7160.9 (3)
N1—C7—C8—C9126.2 (3)C2—C1—N1—C721.9 (4)
C13—C8—C9—C102.0 (4)
Hydrogen-bond geometry (Å, º) top
D—H···AD—HH···AD···AD—H···A
N1—H1N···O1i0.83 (4)2.12 (4)2.900 (3)157 (3)
Symmetry code: (i) y+1, x, z1/4.

Experimental details

Crystal data
Chemical formulaC14H12ClNO
Mr245.70
Crystal system, space groupTetragonal, P43
Temperature (K)299
a, c (Å)8.8237 (8), 15.977 (2)
V3)1243.9 (2)
Z4
Radiation typeCu Kα
µ (mm1)2.57
Crystal size (mm)0.60 × 0.10 × 0.07
Data collection
DiffractometerEnraf–Nonius CAD-4
diffractometer
Absorption correctionPsi-scan
(North et al., 1968)
Tmin, Tmax0.308, 0.841
No. of measured, independent and
observed [I > 2σ(I)] reflections
4144, 2173, 1844
Rint0.036
(sin θ/λ)max1)0.597
Refinement
R[F2 > 2σ(F2)], wR(F2), S 0.042, 0.120, 1.07
No. of reflections2173
No. of parameters159
No. of restraints1
H-atom treatmentH atoms treated by a mixture of independent and constrained refinement
Δρmax, Δρmin (e Å3)0.19, 0.29
Absolute structureFlack (1983), 1020 Friedel pairs
Absolute structure parameter0.00 (2)

Computer programs: CAD-4-PC (Enraf–Nonius, 1996), REDU4 (Stoe & Cie, 1987), SHELXS97 (Sheldrick, 2008), SHELXL97 (Sheldrick, 2008), PLATON (Spek, 2003).

Hydrogen-bond geometry (Å, º) top
D—H···AD—HH···AD···AD—H···A
N1—H1N···O1i0.83 (4)2.12 (4)2.900 (3)157 (3)
Symmetry code: (i) y+1, x, z1/4.
 

Acknowledgements

BTG thanks the Alexander von Humboldt Foundation, Bonn, Germany, for extensions of his research fellowship.

References

First citationEnraf–Nonius (1996). CAD-4-PC. Enraf–Nonius, Delft, The Netherlands.  Google Scholar
First citationFlack, H. D. (1983). Acta Cryst. A39, 876–881.  CrossRef CAS Web of Science IUCr Journals Google Scholar
First citationGowda, B. T., Foro, S., Sowmya, B. P. & Fuess, H. (2008a). Acta Cryst. E64, o383.  Web of Science CSD CrossRef IUCr Journals Google Scholar
First citationGowda, B. T., Foro, S., Sowmya, B. P. & Fuess, H. (2008b). Acta Cryst. E64, o541.  Web of Science CSD CrossRef IUCr Journals Google Scholar
First citationGowda, B. T., Jyothi, K., Paulus, H. & Fuess, H. (2003). Z. Naturforsch. Teil A, 58, 225–230.  CAS Google Scholar
First citationNorth, A. C. T., Phillips, D. C. & Mathews, F. S. (1968). Acta Cryst. A24, 351–359.  CrossRef IUCr Journals Web of Science Google Scholar
First citationSheldrick, G. M. (2008). Acta Cryst. A64, 112–122.  Web of Science CrossRef CAS IUCr Journals Google Scholar
First citationSpek, A. L. (2003). J. Appl. Cryst. 36, 7–13.  Web of Science CrossRef CAS IUCr Journals Google Scholar
First citationStoe & Cie (1987). REDU4. Stoe & Cie GmbH, Darmstadt, Germany.  Google Scholar

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