Supporting information
Crystallographic Information File (CIF) https://doi.org/10.1107/S160053680101532X/cv6058sup1.cif | |
Structure factor file (CIF format) https://doi.org/10.1107/S160053680101532X/cv6058Isup2.hkl |
CCDC reference: 175993
Key indicators
- Single-crystal X-ray study
- T = 100 K
- Mean (C-C) = 0.002 Å
- R factor = 0.029
- wR factor = 0.074
- Data-to-parameter ratio = 13.7
checkCIF results
No syntax errors found ADDSYM reports no extra symmetry
Alert Level C:
PLAT_420 Alert C D-H Without Acceptor N(1) - H(1) ?
0 Alert Level A = Potentially serious problem
0 Alert Level B = Potential problem
1 Alert Level C = Please check
The title compound was purchased from Fluka and recrystallized from diethyl ether.
After having encountered severe problems during structure solution, anisotropic refinement remained stuck at R1 = 0.28. It was therefore assumed that the crystal was twinned and applying the twin law (101/010/001), which is equivalent to (101/010/001) provided the ultimate success (R1 dropped below 0.1). All H atoms could now be located by difference Fourier synthesis. They were refined with fixed individual displacement parameters [U(H) = 1.2Ueq(C)] using a riding model with C—H(aromatic) = 0.95 Å or C—H(methylene) = 0.99 Å. H atoms bonded to N and O atoms were refined isotropically. The twin ratio refined to 0.416 (1)/0.584 (1).
Data collection: X-AREA (Stoe & Cie, 2001); cell refinement: X-AREA; data reduction: X-AREA; program(s) used to solve structure: SHELXS97 (Sheldrick, 1990); program(s) used to refine structure: SHELXL97 (Sheldrick, 1997); molecular graphics: PLATON (Spek, 1990).
Fig. 1. Perspective view of (I) with the atom numbering; displacement ellipsoids are at the 50% probability level. |
C10H9NO2 | F(000) = 368 |
Mr = 175.18 | Dx = 1.356 Mg m−3 |
Monoclinic, P21/c | Mo Kα radiation, λ = 0.71073 Å |
a = 17.848 (2) Å | Cell parameters from 10779 reflections |
b = 5.2214 (7) Å | θ = 1.7–26.5° |
c = 9.568 (1) Å | µ = 0.10 mm−1 |
β = 105.70 (1)° | T = 100 K |
V = 858.39 (17) Å3 | Block, colourless |
Z = 4 | 0.40 × 0.30 × 0.20 mm |
Stoe IPDS-II two-circle diffractometer | 1476 reflections with I > 2σ(I) |
Radiation source: fine-focus sealed tube | Rint = 0.050 |
Graphite monochromator | θmax = 26.4°, θmin = 2.2° |
ω scans | h = −22→22 |
11341 measured reflections | k = −6→6 |
1756 independent reflections | l = −11→11 |
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)] = 0.029 | H atoms treated by a mixture of independent and constrained refinement |
wR(F2) = 0.074 | w = 1/[σ2(Fo2) + (0.0454P)2 + 0.0141P] where P = (Fo2 + 2Fc2)/3 |
S = 1.01 | (Δ/σ)max < 0.001 |
1756 reflections | Δρmax = 0.12 e Å−3 |
128 parameters | Δρmin = −0.12 e Å−3 |
0 restraints | Extinction correction: SHELXL97, Fc*=kFc[1+0.001xFc2λ3/sin(2θ)]-1/4 |
Primary atom site location: structure-invariant direct methods | Extinction coefficient: 0.046 (5) |
C10H9NO2 | V = 858.39 (17) Å3 |
Mr = 175.18 | Z = 4 |
Monoclinic, P21/c | Mo Kα radiation |
a = 17.848 (2) Å | µ = 0.10 mm−1 |
b = 5.2214 (7) Å | T = 100 K |
c = 9.568 (1) Å | 0.40 × 0.30 × 0.20 mm |
β = 105.70 (1)° |
Stoe IPDS-II two-circle diffractometer | 1476 reflections with I > 2σ(I) |
11341 measured reflections | Rint = 0.050 |
1756 independent reflections |
R[F2 > 2σ(F2)] = 0.029 | 0 restraints |
wR(F2) = 0.074 | H atoms treated by a mixture of independent and constrained refinement |
S = 1.01 | Δρmax = 0.12 e Å−3 |
1756 reflections | Δρmin = −0.12 e Å−3 |
128 parameters |
Experimental. ; |
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. |
x | y | z | Uiso*/Ueq | ||
N1 | 0.78667 (9) | 0.2286 (3) | 0.31213 (17) | 0.0508 (4) | |
H1 | 0.8077 (14) | 0.099 (5) | 0.276 (3) | 0.087 (8)* | |
C1 | 0.71228 (10) | 0.3206 (3) | 0.2555 (2) | 0.0492 (4) | |
H1A | 0.6752 | 0.2530 | 0.1730 | 0.059* | |
C2 | 0.70028 (9) | 0.5233 (3) | 0.33589 (18) | 0.0421 (4) | |
C3 | 0.77160 (8) | 0.5603 (3) | 0.44932 (16) | 0.0356 (3) | |
C4 | 0.79686 (9) | 0.7378 (3) | 0.56268 (19) | 0.0428 (4) | |
H4 | 0.7625 | 0.8676 | 0.5775 | 0.051* | |
C5 | 0.87205 (10) | 0.7234 (3) | 0.6530 (2) | 0.0496 (4) | |
H5 | 0.8889 | 0.8439 | 0.7294 | 0.060* | |
C6 | 0.92328 (9) | 0.5336 (3) | 0.6329 (2) | 0.0522 (4) | |
H6 | 0.9745 | 0.5264 | 0.6961 | 0.063* | |
C7 | 0.90057 (9) | 0.3563 (3) | 0.5222 (2) | 0.0491 (4) | |
H7 | 0.9355 | 0.2276 | 0.5084 | 0.059* | |
C8 | 0.82467 (9) | 0.3714 (3) | 0.43107 (19) | 0.0405 (4) | |
C9 | 0.62743 (9) | 0.6794 (3) | 0.3094 (2) | 0.0500 (4) | |
H9B | 0.5993 | 0.6681 | 0.2051 | 0.060* | |
H9A | 0.6420 | 0.8610 | 0.3311 | 0.060* | |
C10 | 0.57321 (8) | 0.6008 (3) | 0.39668 (18) | 0.0395 (3) | |
O1 | 0.58057 (7) | 0.4048 (2) | 0.46829 (14) | 0.0512 (3) | |
O2 | 0.51619 (7) | 0.7638 (2) | 0.38738 (15) | 0.0548 (3) | |
H2 | 0.4854 (14) | 0.697 (5) | 0.444 (3) | 0.084 (7)* |
U11 | U22 | U33 | U12 | U13 | U23 | |
N1 | 0.0638 (9) | 0.0389 (7) | 0.0580 (9) | −0.0064 (7) | 0.0308 (8) | −0.0095 (6) |
C1 | 0.0536 (9) | 0.0515 (9) | 0.0460 (10) | −0.0176 (7) | 0.0192 (9) | −0.0014 (8) |
C2 | 0.0411 (8) | 0.0452 (8) | 0.0453 (9) | −0.0084 (6) | 0.0207 (7) | 0.0063 (7) |
C3 | 0.0362 (7) | 0.0326 (7) | 0.0442 (8) | −0.0049 (5) | 0.0213 (7) | 0.0033 (6) |
C4 | 0.0470 (8) | 0.0353 (7) | 0.0546 (10) | −0.0013 (7) | 0.0281 (8) | −0.0027 (7) |
C5 | 0.0511 (9) | 0.0454 (9) | 0.0553 (11) | −0.0147 (8) | 0.0197 (8) | −0.0075 (7) |
C6 | 0.0379 (8) | 0.0556 (10) | 0.0629 (11) | −0.0063 (7) | 0.0134 (8) | 0.0063 (9) |
C7 | 0.0423 (8) | 0.0414 (8) | 0.0700 (12) | 0.0062 (7) | 0.0263 (9) | 0.0061 (8) |
C8 | 0.0461 (8) | 0.0303 (7) | 0.0525 (10) | −0.0047 (6) | 0.0259 (7) | −0.0012 (7) |
C9 | 0.0401 (8) | 0.0579 (10) | 0.0551 (11) | −0.0036 (7) | 0.0181 (8) | 0.0168 (8) |
C10 | 0.0331 (7) | 0.0454 (8) | 0.0397 (8) | −0.0040 (6) | 0.0093 (7) | 0.0057 (7) |
O1 | 0.0438 (6) | 0.0571 (7) | 0.0582 (7) | 0.0055 (5) | 0.0233 (6) | 0.0199 (6) |
O2 | 0.0484 (6) | 0.0542 (6) | 0.0688 (9) | 0.0067 (5) | 0.0278 (6) | 0.0212 (6) |
N1—C8 | 1.376 (2) | C5—H5 | 0.9500 |
N1—C1 | 1.378 (2) | C6—C7 | 1.382 (3) |
N1—H1 | 0.89 (3) | C6—H6 | 0.9500 |
C1—C2 | 1.359 (2) | C7—C8 | 1.401 (2) |
C1—H1A | 0.9500 | C7—H7 | 0.9500 |
C2—C3 | 1.445 (2) | C9—C10 | 1.497 (2) |
C2—C9 | 1.497 (2) | C9—H9B | 0.9900 |
C3—C4 | 1.405 (2) | C9—H9A | 0.9900 |
C3—C8 | 1.410 (2) | C10—O1 | 1.2187 (18) |
C4—C5 | 1.388 (2) | C10—O2 | 1.3110 (19) |
C4—H4 | 0.9500 | O2—H2 | 0.94 (3) |
C5—C6 | 1.396 (2) | ||
C8—N1—C1 | 110.06 (14) | C7—C6—H6 | 119.5 |
C8—N1—H1 | 124.9 (17) | C5—C6—H6 | 119.5 |
C1—N1—H1 | 125.0 (17) | C6—C7—C8 | 118.21 (14) |
C2—C1—N1 | 109.37 (16) | C6—C7—H7 | 120.9 |
C2—C1—H1A | 125.3 | C8—C7—H7 | 120.9 |
N1—C1—H1A | 125.3 | N1—C8—C7 | 131.40 (14) |
C1—C2—C3 | 106.70 (14) | N1—C8—C3 | 106.51 (14) |
C1—C2—C9 | 126.21 (16) | C7—C8—C3 | 122.07 (15) |
C3—C2—C9 | 127.09 (15) | C2—C9—C10 | 114.78 (13) |
C4—C3—C8 | 118.09 (14) | C2—C9—H9B | 108.6 |
C4—C3—C2 | 134.52 (14) | C10—C9—H9B | 108.6 |
C8—C3—C2 | 107.36 (14) | C2—C9—H9A | 108.6 |
C5—C4—C3 | 119.93 (14) | C10—C9—H9A | 108.6 |
C5—C4—H4 | 120.0 | H9B—C9—H9A | 107.5 |
C3—C4—H4 | 120.0 | O1—C10—O2 | 123.14 (14) |
C4—C5—C6 | 120.77 (16) | O1—C10—C9 | 123.81 (14) |
C4—C5—H5 | 119.6 | O2—C10—C9 | 113.04 (13) |
C6—C5—H5 | 119.6 | C10—O2—H2 | 106.4 (14) |
C7—C6—C5 | 120.92 (16) | ||
C8—N1—C1—C2 | −0.17 (18) | C1—N1—C8—C7 | −178.52 (16) |
N1—C1—C2—C3 | 0.17 (17) | C1—N1—C8—C3 | 0.09 (17) |
N1—C1—C2—C9 | 179.20 (14) | C6—C7—C8—N1 | 178.32 (16) |
C1—C2—C3—C4 | 177.99 (15) | C6—C7—C8—C3 | −0.1 (2) |
C9—C2—C3—C4 | −1.0 (3) | C4—C3—C8—N1 | −178.45 (12) |
C1—C2—C3—C8 | −0.11 (15) | C2—C3—C8—N1 | 0.01 (15) |
C9—C2—C3—C8 | −179.13 (14) | C4—C3—C8—C7 | 0.3 (2) |
C8—C3—C4—C5 | −0.2 (2) | C2—C3—C8—C7 | 178.78 (14) |
C2—C3—C4—C5 | −178.18 (16) | C1—C2—C9—C10 | 96.2 (2) |
C3—C4—C5—C6 | −0.1 (2) | C3—C2—C9—C10 | −84.92 (19) |
C4—C5—C6—C7 | 0.3 (3) | C2—C9—C10—O1 | −10.3 (2) |
C5—C6—C7—C8 | −0.2 (2) | C2—C9—C10—O2 | 170.32 (15) |
D—H···A | D—H | H···A | D···A | D—H···A |
O2—H2···O1i | 0.94 (3) | 1.70 (3) | 2.6372 (16) | 172 (2) |
Symmetry code: (i) −x+1, −y+1, −z+1. |
Experimental details
Crystal data | |
Chemical formula | C10H9NO2 |
Mr | 175.18 |
Crystal system, space group | Monoclinic, P21/c |
Temperature (K) | 100 |
a, b, c (Å) | 17.848 (2), 5.2214 (7), 9.568 (1) |
β (°) | 105.70 (1) |
V (Å3) | 858.39 (17) |
Z | 4 |
Radiation type | Mo Kα |
µ (mm−1) | 0.10 |
Crystal size (mm) | 0.40 × 0.30 × 0.20 |
Data collection | |
Diffractometer | Stoe IPDS-II two-circle diffractometer |
Absorption correction | – |
No. of measured, independent and observed [I > 2σ(I)] reflections | 11341, 1756, 1476 |
Rint | 0.050 |
(sin θ/λ)max (Å−1) | 0.625 |
Refinement | |
R[F2 > 2σ(F2)], wR(F2), S | 0.029, 0.074, 1.01 |
No. of reflections | 1756 |
No. of parameters | 128 |
H-atom treatment | H atoms treated by a mixture of independent and constrained refinement |
Δρmax, Δρmin (e Å−3) | 0.12, −0.12 |
Computer programs: X-AREA (Stoe & Cie, 2001), X-AREA, SHELXS97 (Sheldrick, 1990), SHELXL97 (Sheldrick, 1997), PLATON (Spek, 1990).
D—H···A | D—H | H···A | D···A | D—H···A |
O2—H2···O1i | 0.94 (3) | 1.70 (3) | 2.6372 (16) | 172 (2) |
Symmetry code: (i) −x+1, −y+1, −z+1. |
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The structure of the title compound, (I), has already be determined (Karle et al., 1964; Chandrasekhar & Raghunathan, 1982; Pfeiffer et al., 1987; Nigovic et al., 2000), but none of the authors has described any twinning.
Surprisingly, we encountered a twinned crystal and satisfactory refinement was only possible when the correct twin law (101/010/001) was applied. This case of twinning is characterized by the fact that one of the face diagonals is of the same length as one of the axes bordering the face. As a result of that, the face diagonal can be an axis of the twin unit cell, whereas the other axis runs in its opposite direction. The present kind of twinning in the monoclinic crystal system can in principle occur if the following condition is met: a.cos(β) = c/2. The structure determinations of Chandrasekhar & Raghunathan (1982), Pfeiffer et al. (1987) and Nigovic et al. (2000) have led to acceptable results. However, Karle et al. (1964), who had used Equi-inclination Weissenberg photographs and zero-level precession photographs on a thin plate-like crystal to collect the diffracted intensities, ascribed the relatively high R value to the shape of the crystal and to the difficulty to estimate the density of the diffraction spots.