Supporting information
Crystallographic Information File (CIF) https://doi.org/10.1107/S1600536802020147/na6179sup1.cif | |
Structure factor file (CIF format) https://doi.org/10.1107/S1600536802020147/na6179Isup2.hkl |
CCDC reference: 202321
Key indicators
- Single-crystal X-ray study
- T = 220 K
- Mean (C-C) = 0.003 Å
- R factor = 0.043
- wR factor = 0.122
- Data-to-parameter ratio = 9.8
checkCIF results
No syntax errors found
ADDSYM reports no extra symmetry
Alert Level C:
REFLT_03 From the CIF: _diffrn_reflns_theta_max 69.94 From the CIF: _reflns_number_total 5000 TEST2: Reflns within _diffrn_reflns_theta_max Count of symmetry unique reflns 5362 Completeness (_total/calc) 93.25% Alert C: < 95% complete General Notes
FORMU_01 There is a discrepancy between the atom counts in the _chemical_formula_sum and _chemical_formula_moiety. This is usually due to the moiety formula being in the wrong format. Atom count from _chemical_formula_sum: C9 H9.67 N1 O6.33 Atom count from _chemical_formula_moiety:C9 H9.66 N1 O6.33
0 Alert Level A = Potentially serious problem
0 Alert Level B = Potential problem
1 Alert Level C = Please check
The title compound was synthesized by the method of Christiansen (1926). A single-crystal suitable for X-ray diffraction was grown by the slow diffusion of diethyl ether into an ethanol solution.
H atoms bound to carbon were placed in calculated positions and refined as riding or rotating groups. The amide, hydroxyl and water H atoms were placed in a difference map and freely refined, giving N—H bond lengths of between 0.85 (3) and 0.97 (3) Å, and O—H bond lengths of between 0.84 (3) and 1.02 (4) Å.
Data collection: DIF4 (Stoe & Cie, 1990); cell refinement: DIF4; data reduction: REDU4 (Stoe & Cie, 1990); program(s) used to solve structure: SHELXTL (Sheldrick, 1997); program(s) used to refine structure: SHELXTL; molecular graphics: SHELXTL and CAMERON (Watkin et al., 1993).
C9H9NO6·0.33H2O | Z = 6 |
Mr = 233.18 | F(000) = 728 |
Triclinic, P1 | Dx = 1.639 Mg m−3 |
a = 8.266 (5) Å | Cu Kα radiation, λ = 1.54178 Å |
b = 8.515 (4) Å | Cell parameters from 54 reflections |
c = 20.614 (7) Å | θ = 20–22° |
α = 87.08 (3)° | µ = 1.23 mm−1 |
β = 86.56 (3)° | T = 220 K |
γ = 78.32 (3)° | Prism, colourless |
V = 1417.2 (12) Å3 | 0.62 × 0.28 × 0.24 mm |
Stoe Stadi-4 four-circle diffractometer | 4192 reflections with I > 2σ(I) |
Radiation source: fine-focus sealed tube | Rint = 0.020 |
Graphite monochromator | θmax = 69.9°, θmin = 4.3° |
ω–θ scans | h = −9→10 |
Absorption correction: numerical (SHELXTL; Sheldrick 1997) | k = −10→10 |
Tmin = 0.617, Tmax = 0.777 | l = −20→25 |
8429 measured reflections | 3 standard reflections every 60 min |
5000 independent reflections | intensity decay: 7% |
Refinement on F2 | Secondary atom site location: difference Fourier map |
Least-squares matrix: full | Hydrogen site location: geom and difmap |
R[F2 > 2σ(F2)] = 0.043 | H atoms treated by a mixture of independent and constrained refinement |
wR(F2) = 0.122 | w = 1/[σ2(Fo2) + (0.0803P)2 + 0.3171P] where P = (Fo2 + 2Fc2)/3 |
S = 1.03 | (Δ/σ)max < 0.001 |
5000 reflections | Δρmax = 0.28 e Å−3 |
511 parameters | Δρmin = −0.26 e Å−3 |
0 restraints | Extinction correction: SHELXTL, Fc*=kFc[1+0.001xFc2λ3/sin(2θ)]-1/4 |
Primary atom site location: structure-invariant direct methods | Extinction coefficient: 0.0019 (4) |
C9H9NO6·0.33H2O | γ = 78.32 (3)° |
Mr = 233.18 | V = 1417.2 (12) Å3 |
Triclinic, P1 | Z = 6 |
a = 8.266 (5) Å | Cu Kα radiation |
b = 8.515 (4) Å | µ = 1.23 mm−1 |
c = 20.614 (7) Å | T = 220 K |
α = 87.08 (3)° | 0.62 × 0.28 × 0.24 mm |
β = 86.56 (3)° |
Stoe Stadi-4 four-circle diffractometer | 4192 reflections with I > 2σ(I) |
Absorption correction: numerical (SHELXTL; Sheldrick 1997) | Rint = 0.020 |
Tmin = 0.617, Tmax = 0.777 | 3 standard reflections every 60 min |
8429 measured reflections | intensity decay: 7% |
5000 independent reflections |
R[F2 > 2σ(F2)] = 0.043 | 0 restraints |
wR(F2) = 0.122 | H atoms treated by a mixture of independent and constrained refinement |
S = 1.03 | Δρmax = 0.28 e Å−3 |
5000 reflections | Δρmin = −0.26 e Å−3 |
511 parameters |
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 | ||
C1A | 0.8090 (2) | −0.0285 (2) | 0.34038 (9) | 0.0315 (4) | |
H1A | 0.8539 | −0.1046 | 0.3725 | 0.038* | |
C2A | 0.6854 (2) | 0.0994 (2) | 0.35695 (8) | 0.0304 (4) | |
O2A | 0.62251 (18) | 0.12295 (18) | 0.42016 (6) | 0.0382 (3) | |
H2A | 0.688 (4) | 0.047 (4) | 0.4491 (16) | 0.079 (10)* | |
C3A | 0.6147 (2) | 0.2113 (2) | 0.30965 (9) | 0.0306 (4) | |
O3A | 0.48697 (19) | 0.33521 (18) | 0.32253 (7) | 0.0424 (4) | |
H3A | 0.462 (4) | 0.345 (4) | 0.3668 (18) | 0.091 (11)* | |
C4A | 0.6751 (2) | 0.1948 (2) | 0.24507 (9) | 0.0303 (4) | |
O4A | 0.60357 (18) | 0.30928 (17) | 0.20013 (7) | 0.0372 (3) | |
H4A | 0.617 (4) | 0.267 (4) | 0.1619 (18) | 0.087 (11)* | |
C5A | 0.8011 (2) | 0.0692 (2) | 0.22804 (9) | 0.0323 (4) | |
H5A | 0.8423 | 0.0601 | 0.1846 | 0.039* | |
C6A | 0.8674 (2) | −0.0446 (2) | 0.27552 (9) | 0.0303 (4) | |
C7A | 0.9994 (2) | −0.1788 (2) | 0.25603 (9) | 0.0315 (4) | |
O71A | 1.05966 (18) | −0.20099 (18) | 0.20091 (6) | 0.0393 (3) | |
O72A | 1.05175 (17) | −0.28241 (16) | 0.30562 (6) | 0.0352 (3) | |
C8A | 1.1765 (3) | −0.4183 (2) | 0.28774 (10) | 0.0355 (4) | |
H8A1 | 1.2093 | −0.4846 | 0.3269 | 0.043* | |
H8A2 | 1.2742 | −0.3810 | 0.2687 | 0.043* | |
C9A | 1.1168 (3) | −0.5200 (2) | 0.23915 (9) | 0.0337 (4) | |
O9A | 0.96965 (18) | −0.52324 (19) | 0.23523 (7) | 0.0430 (4) | |
N9A | 1.2354 (2) | −0.6094 (2) | 0.20389 (9) | 0.0430 (4) | |
H91A | 1.350 (4) | −0.609 (4) | 0.2097 (15) | 0.073 (9)* | |
H92A | 1.206 (4) | −0.687 (4) | 0.1790 (17) | 0.082 (10)* | |
C1B | −0.1411 (2) | 0.3870 (2) | 0.50778 (9) | 0.0315 (4) | |
H1B | −0.1124 | 0.3468 | 0.5498 | 0.038* | |
C2B | −0.2663 (2) | 0.5188 (2) | 0.49925 (9) | 0.0322 (4) | |
O2B | −0.3507 (2) | 0.5983 (2) | 0.55142 (7) | 0.0454 (4) | |
H2B | −0.427 (4) | 0.675 (4) | 0.5337 (15) | 0.072 (10)* | |
C3B | −0.3090 (2) | 0.5818 (2) | 0.43746 (9) | 0.0317 (4) | |
O3B | −0.43152 (18) | 0.71313 (18) | 0.43427 (7) | 0.0415 (4) | |
H3B | −0.467 (4) | 0.741 (4) | 0.3880 (19) | 0.098 (11)* | |
C4B | −0.2233 (2) | 0.5096 (2) | 0.38268 (9) | 0.0309 (4) | |
O4B | −0.26940 (18) | 0.57799 (18) | 0.32376 (6) | 0.0399 (4) | |
H4B | −0.182 (4) | 0.540 (4) | 0.2934 (15) | 0.073 (9)* | |
C5B | −0.1002 (2) | 0.3763 (2) | 0.39068 (9) | 0.0313 (4) | |
H5B | −0.0439 | 0.3263 | 0.3539 | 0.038* | |
C6B | −0.0574 (2) | 0.3139 (2) | 0.45271 (8) | 0.0300 (4) | |
C7B | 0.0772 (2) | 0.1744 (2) | 0.45963 (8) | 0.0297 (4) | |
O71B | 0.13071 (18) | 0.11058 (18) | 0.51029 (6) | 0.0397 (3) | |
O72B | 0.14066 (17) | 0.11948 (17) | 0.40129 (6) | 0.0366 (3) | |
C8B | 0.2704 (3) | −0.0185 (2) | 0.40203 (9) | 0.0351 (4) | |
H8B1 | 0.2307 | −0.1088 | 0.4245 | 0.042* | |
H8B2 | 0.3627 | 0.0030 | 0.4256 | 0.042* | |
C9B | 0.3286 (2) | −0.0609 (2) | 0.33294 (9) | 0.0322 (4) | |
O9B | 0.4357 (2) | −0.18176 (19) | 0.32475 (7) | 0.0472 (4) | |
N9B | 0.2633 (2) | 0.0320 (2) | 0.28415 (8) | 0.0401 (4) | |
H91B | 0.187 (4) | 0.111 (4) | 0.2939 (14) | 0.060 (8)* | |
H92B | 0.308 (3) | 0.004 (3) | 0.2428 (14) | 0.057 (7)* | |
C1C | 0.9154 (2) | 0.3219 (2) | −0.03830 (8) | 0.0283 (4) | |
H1C | 0.8653 | 0.3647 | −0.0768 | 0.034* | |
C2C | 1.0497 (2) | 0.1965 (2) | −0.04056 (8) | 0.0280 (4) | |
O2C | 1.12347 (18) | 0.12840 (18) | −0.09604 (6) | 0.0386 (3) | |
H2C | 1.065 (4) | 0.162 (3) | −0.1294 (15) | 0.062 (8)* | |
C3C | 1.1243 (2) | 0.1315 (2) | 0.01644 (8) | 0.0264 (4) | |
O3C | 1.25885 (17) | 0.01017 (17) | 0.01717 (7) | 0.0342 (3) | |
H3C | 1.289 (4) | −0.023 (4) | −0.0215 (16) | 0.078 (10)* | |
C4C | 1.0621 (2) | 0.1968 (2) | 0.07579 (8) | 0.0268 (4) | |
O4C | 1.13858 (18) | 0.13663 (17) | 0.13178 (6) | 0.0340 (3) | |
H4C | 1.215 (3) | 0.057 (3) | 0.1253 (13) | 0.050 (8)* | |
C5C | 0.9284 (2) | 0.3223 (2) | 0.07911 (8) | 0.0280 (4) | |
H5C | 0.8877 | 0.3652 | 0.1194 | 0.034* | |
C6C | 0.8536 (2) | 0.3854 (2) | 0.02167 (8) | 0.0262 (4) | |
C7C | 0.7137 (2) | 0.5228 (2) | 0.02106 (8) | 0.0264 (4) | |
O71C | 0.64805 (17) | 0.58456 (17) | −0.02767 (6) | 0.0340 (3) | |
O72C | 0.66345 (16) | 0.57723 (16) | 0.08082 (6) | 0.0316 (3) | |
C8C | 0.5361 (2) | 0.7193 (2) | 0.08231 (9) | 0.0310 (4) | |
H8C1 | 0.4328 | 0.6949 | 0.0684 | 0.037* | |
H8C2 | 0.5677 | 0.8018 | 0.0521 | 0.037* | |
C9C | 0.5098 (2) | 0.7812 (2) | 0.15035 (9) | 0.0296 (4) | |
O9C | 0.42826 (17) | 0.91960 (16) | 0.15725 (6) | 0.0350 (3) | |
N9C | 0.5696 (2) | 0.6858 (2) | 0.19900 (8) | 0.0415 (4) | |
H91C | 0.543 (4) | 0.719 (3) | 0.2402 (15) | 0.064 (8)* | |
H92C | 0.623 (3) | 0.592 (3) | 0.1919 (12) | 0.046 (7)* | |
O1W | 0.56996 (18) | 0.16137 (19) | 0.08780 (7) | 0.0360 (3) | |
H1W | 0.491 (4) | 0.241 (4) | 0.0669 (15) | 0.064 (8)* | |
H2W | 0.518 (4) | 0.091 (4) | 0.1062 (15) | 0.066 (9)* |
U11 | U22 | U33 | U12 | U13 | U23 | |
C1A | 0.0339 (10) | 0.0344 (10) | 0.0240 (9) | −0.0007 (8) | −0.0057 (7) | −0.0018 (7) |
C2A | 0.0316 (10) | 0.0366 (10) | 0.0214 (8) | −0.0021 (8) | −0.0021 (7) | −0.0048 (7) |
O2A | 0.0398 (8) | 0.0463 (9) | 0.0212 (6) | 0.0082 (7) | −0.0002 (5) | −0.0028 (6) |
C3A | 0.0297 (10) | 0.0325 (10) | 0.0268 (9) | 0.0023 (8) | −0.0043 (7) | −0.0043 (7) |
O3A | 0.0445 (9) | 0.0453 (9) | 0.0272 (7) | 0.0164 (7) | −0.0009 (6) | −0.0073 (6) |
C4A | 0.0326 (10) | 0.0308 (10) | 0.0247 (9) | 0.0014 (8) | −0.0059 (7) | −0.0005 (7) |
O4A | 0.0455 (8) | 0.0351 (8) | 0.0235 (7) | 0.0098 (6) | −0.0043 (6) | 0.0005 (6) |
C5A | 0.0355 (10) | 0.0355 (11) | 0.0222 (8) | 0.0017 (9) | −0.0007 (7) | −0.0028 (7) |
C6A | 0.0317 (10) | 0.0321 (10) | 0.0251 (9) | 0.0001 (8) | −0.0043 (7) | −0.0032 (7) |
C7A | 0.0349 (10) | 0.0332 (10) | 0.0238 (9) | 0.0012 (8) | −0.0052 (7) | −0.0034 (7) |
O71A | 0.0423 (8) | 0.0432 (8) | 0.0252 (7) | 0.0084 (7) | −0.0001 (6) | −0.0033 (6) |
O72A | 0.0408 (8) | 0.0338 (7) | 0.0250 (6) | 0.0093 (6) | −0.0073 (5) | −0.0030 (5) |
C8A | 0.0363 (11) | 0.0322 (10) | 0.0320 (10) | 0.0104 (9) | −0.0083 (8) | −0.0053 (8) |
C9A | 0.0376 (11) | 0.0341 (10) | 0.0253 (9) | 0.0033 (9) | −0.0041 (7) | −0.0013 (7) |
O9A | 0.0368 (8) | 0.0578 (10) | 0.0328 (7) | −0.0036 (7) | 0.0001 (6) | −0.0113 (7) |
N9A | 0.0379 (10) | 0.0471 (11) | 0.0393 (10) | 0.0072 (9) | −0.0041 (8) | −0.0171 (8) |
C1B | 0.0334 (10) | 0.0348 (10) | 0.0238 (9) | −0.0006 (9) | −0.0021 (7) | −0.0023 (7) |
C2B | 0.0329 (10) | 0.0365 (11) | 0.0248 (9) | −0.0010 (9) | 0.0036 (7) | −0.0071 (8) |
O2B | 0.0501 (9) | 0.0511 (10) | 0.0249 (7) | 0.0139 (8) | 0.0043 (6) | −0.0094 (6) |
C3B | 0.0278 (10) | 0.0339 (10) | 0.0297 (9) | 0.0032 (8) | −0.0011 (7) | −0.0045 (8) |
O3B | 0.0393 (8) | 0.0447 (9) | 0.0304 (7) | 0.0166 (7) | −0.0028 (6) | −0.0041 (6) |
C4B | 0.0311 (10) | 0.0359 (10) | 0.0231 (9) | 0.0001 (8) | −0.0036 (7) | −0.0007 (7) |
O4B | 0.0377 (8) | 0.0498 (9) | 0.0227 (7) | 0.0130 (7) | −0.0023 (6) | 0.0024 (6) |
C5B | 0.0320 (10) | 0.0359 (10) | 0.0229 (8) | 0.0012 (8) | −0.0012 (7) | −0.0045 (7) |
C6B | 0.0310 (10) | 0.0338 (10) | 0.0240 (9) | −0.0030 (8) | −0.0019 (7) | −0.0040 (7) |
C7B | 0.0339 (10) | 0.0320 (10) | 0.0218 (8) | −0.0018 (8) | −0.0034 (7) | −0.0040 (7) |
O71B | 0.0469 (8) | 0.0424 (8) | 0.0234 (7) | 0.0077 (7) | −0.0070 (6) | −0.0009 (6) |
O72B | 0.0404 (8) | 0.0387 (8) | 0.0231 (6) | 0.0112 (6) | −0.0021 (5) | −0.0044 (5) |
C8B | 0.0364 (11) | 0.0357 (11) | 0.0273 (9) | 0.0076 (9) | −0.0027 (8) | −0.0041 (8) |
C9B | 0.0321 (10) | 0.0337 (10) | 0.0283 (9) | 0.0013 (9) | −0.0046 (7) | −0.0058 (8) |
O9B | 0.0500 (9) | 0.0496 (9) | 0.0300 (7) | 0.0212 (8) | −0.0057 (6) | −0.0094 (6) |
N9B | 0.0473 (11) | 0.0404 (10) | 0.0252 (8) | 0.0095 (9) | −0.0024 (7) | −0.0024 (7) |
C1C | 0.0298 (10) | 0.0329 (10) | 0.0207 (8) | −0.0019 (8) | −0.0045 (7) | −0.0008 (7) |
C2C | 0.0310 (10) | 0.0300 (9) | 0.0209 (8) | −0.0005 (8) | −0.0002 (7) | −0.0057 (7) |
O2C | 0.0415 (8) | 0.0454 (8) | 0.0214 (7) | 0.0115 (7) | −0.0034 (6) | −0.0097 (6) |
C3C | 0.0241 (9) | 0.0263 (9) | 0.0265 (9) | 0.0008 (7) | −0.0017 (7) | −0.0029 (7) |
O3C | 0.0339 (7) | 0.0367 (8) | 0.0259 (7) | 0.0087 (6) | −0.0039 (5) | −0.0045 (6) |
C4C | 0.0278 (9) | 0.0304 (9) | 0.0205 (8) | −0.0017 (8) | −0.0037 (6) | 0.0000 (7) |
O4C | 0.0365 (8) | 0.0376 (8) | 0.0212 (6) | 0.0102 (7) | −0.0063 (5) | −0.0018 (5) |
C5C | 0.0289 (9) | 0.0327 (10) | 0.0208 (8) | −0.0024 (8) | −0.0001 (7) | −0.0034 (7) |
C6C | 0.0256 (9) | 0.0286 (9) | 0.0228 (8) | −0.0019 (8) | −0.0008 (6) | −0.0022 (7) |
C7C | 0.0280 (9) | 0.0277 (9) | 0.0224 (8) | −0.0022 (8) | −0.0012 (7) | −0.0033 (7) |
O71C | 0.0370 (7) | 0.0361 (7) | 0.0237 (6) | 0.0064 (6) | −0.0056 (5) | −0.0024 (5) |
O72C | 0.0358 (7) | 0.0328 (7) | 0.0206 (6) | 0.0074 (6) | −0.0023 (5) | −0.0038 (5) |
C8C | 0.0307 (10) | 0.0322 (10) | 0.0249 (9) | 0.0074 (8) | −0.0034 (7) | −0.0041 (7) |
C9C | 0.0290 (10) | 0.0324 (10) | 0.0237 (9) | 0.0031 (8) | −0.0023 (7) | −0.0018 (7) |
O9C | 0.0408 (8) | 0.0320 (7) | 0.0259 (6) | 0.0084 (6) | −0.0021 (5) | −0.0044 (5) |
N9C | 0.0544 (12) | 0.0367 (10) | 0.0231 (8) | 0.0163 (9) | −0.0048 (7) | −0.0036 (7) |
O1W | 0.0372 (8) | 0.0368 (8) | 0.0302 (7) | 0.0023 (7) | −0.0054 (6) | 0.0004 (6) |
C1A—C2A | 1.375 (3) | C6B—C7B | 1.461 (3) |
C1A—C6A | 1.398 (3) | C7B—O71B | 1.217 (2) |
C1A—H1A | 0.9400 | C7B—O72B | 1.350 (2) |
C2A—O2A | 1.383 (2) | O72B—C8B | 1.422 (2) |
C2A—C3A | 1.396 (3) | C8B—C9B | 1.513 (3) |
O2A—H2A | 0.96 (3) | C8B—H8B1 | 0.9800 |
C3A—O3A | 1.357 (2) | C8B—H8B2 | 0.9800 |
C3A—C4A | 1.397 (3) | C9B—O9B | 1.226 (2) |
O3A—H3A | 0.93 (4) | C9B—N9B | 1.319 (3) |
C4A—C5A | 1.376 (3) | N9B—H92B | 0.93 (3) |
C4A—O4A | 1.378 (2) | N9B—H91B | 0.85 (3) |
O4A—H4A | 0.87 (4) | C1C—C2C | 1.376 (3) |
C5A—C6A | 1.397 (3) | C1C—C6C | 1.401 (2) |
C5A—H5A | 0.9400 | C1C—H1C | 0.9400 |
C6A—C7A | 1.465 (3) | C2C—O2C | 1.363 (2) |
C7A—O71A | 1.221 (2) | C2C—C3C | 1.396 (3) |
C7A—O72A | 1.348 (2) | O2C—H2C | 0.87 (3) |
O72A—C8A | 1.433 (2) | C3C—O3C | 1.356 (2) |
C8A—C9A | 1.522 (3) | C3C—C4C | 1.396 (2) |
C8A—H8A1 | 0.9800 | O3C—H3C | 0.87 (3) |
C8A—H8A2 | 0.9800 | C4C—C5C | 1.374 (3) |
C9A—O9A | 1.230 (3) | C4C—O4C | 1.375 (2) |
C9A—N9A | 1.318 (3) | O4C—H4C | 0.84 (3) |
N9A—H91A | 0.97 (3) | C5C—C6C | 1.400 (3) |
N9A—H92A | 0.94 (3) | C5C—H5C | 0.9400 |
C1B—C2B | 1.376 (3) | C6C—C7C | 1.470 (3) |
C1B—C6B | 1.399 (3) | C7C—O71C | 1.215 (2) |
C1B—H1B | 0.9400 | C7C—O72C | 1.351 (2) |
C2B—O2B | 1.376 (2) | O72C—C8C | 1.434 (2) |
C2B—C3B | 1.394 (3) | C8C—C9C | 1.512 (2) |
O2B—H2B | 0.89 (3) | C8C—H8C1 | 0.9800 |
C3B—O3B | 1.350 (2) | C8C—H8C2 | 0.9800 |
C3B—C4B | 1.397 (3) | C9C—O9C | 1.244 (2) |
O3B—H3B | 1.02 (4) | C9C—N9C | 1.313 (3) |
C4B—O4B | 1.361 (2) | N9C—H91C | 0.91 (3) |
C4B—C5B | 1.373 (3) | N9C—H92C | 0.85 (3) |
O4B—H4B | 0.94 (3) | O1W—H1W | 0.95 (3) |
C5B—C6B | 1.397 (3) | O1W—H2W | 0.87 (3) |
C5B—H5B | 0.9400 | ||
C2A—C1A—C6A | 119.58 (18) | C5B—C6B—C7B | 119.63 (17) |
C2A—C1A—H1A | 120.2 | C1B—C6B—C7B | 120.39 (17) |
C6A—C1A—H1A | 120.2 | O71B—C7B—O72B | 121.53 (18) |
C1A—C2A—O2A | 122.58 (17) | O71B—C7B—C6B | 126.75 (17) |
C1A—C2A—C3A | 120.92 (17) | O72B—C7B—C6B | 111.72 (16) |
O2A—C2A—C3A | 116.49 (17) | C7B—O72B—C8B | 116.71 (15) |
C2A—O2A—H2A | 109.5 (19) | O72B—C8B—C9B | 109.52 (16) |
O3A—C3A—C2A | 123.59 (17) | O72B—C8B—H8B1 | 109.8 |
O3A—C3A—C4A | 117.42 (17) | C9B—C8B—H8B1 | 109.8 |
C2A—C3A—C4A | 118.98 (17) | O72B—C8B—H8B2 | 109.8 |
C3A—O3A—H3A | 112 (2) | C9B—C8B—H8B2 | 109.8 |
C5A—C4A—O4A | 122.25 (16) | H8B1—C8B—H8B2 | 108.2 |
C5A—C4A—C3A | 120.67 (17) | O9B—C9B—N9B | 122.55 (18) |
O4A—C4A—C3A | 117.08 (17) | O9B—C9B—C8B | 117.96 (17) |
C4A—O4A—H4A | 108 (2) | N9B—C9B—C8B | 119.49 (18) |
C4A—C5A—C6A | 119.78 (17) | C9B—N9B—H92B | 116.2 (17) |
C4A—C5A—H5A | 120.1 | C9B—N9B—H91B | 117 (2) |
C6A—C5A—H5A | 120.1 | H92B—N9B—H91B | 127 (3) |
C5A—C6A—C1A | 120.03 (18) | C2C—C1C—C6C | 119.68 (16) |
C5A—C6A—C7A | 118.79 (16) | C2C—C1C—H1C | 120.2 |
C1A—C6A—C7A | 121.18 (17) | C6C—C1C—H1C | 120.2 |
O71A—C7A—O72A | 120.79 (17) | O2C—C2C—C1C | 124.90 (17) |
O71A—C7A—C6A | 125.65 (17) | O2C—C2C—C3C | 114.50 (17) |
O72A—C7A—C6A | 113.56 (16) | C1C—C2C—C3C | 120.58 (16) |
C7A—O72A—C8A | 114.96 (15) | C2C—O2C—H2C | 111.2 (19) |
O72A—C8A—C9A | 112.12 (17) | O3C—C3C—C4C | 117.65 (16) |
O72A—C8A—H8A1 | 109.2 | O3C—C3C—C2C | 123.26 (16) |
C9A—C8A—H8A1 | 109.2 | C4C—C3C—C2C | 119.06 (17) |
O72A—C8A—H8A2 | 109.2 | C3C—O3C—H3C | 112 (2) |
C9A—C8A—H8A2 | 109.2 | C5C—C4C—O4C | 119.45 (16) |
H8A1—C8A—H8A2 | 107.9 | C5C—C4C—C3C | 121.29 (16) |
O9A—C9A—N9A | 122.8 (2) | O4C—C4C—C3C | 119.24 (17) |
O9A—C9A—C8A | 122.35 (18) | C4C—O4C—H4C | 112.6 (18) |
N9A—C9A—C8A | 114.76 (19) | C4C—C5C—C6C | 119.09 (16) |
C9A—N9A—H91A | 121.0 (19) | C4C—C5C—H5C | 120.5 |
C9A—N9A—H92A | 118 (2) | C6C—C5C—H5C | 120.5 |
H91A—N9A—H92A | 120 (3) | C5C—C6C—C1C | 120.29 (17) |
C2B—C1B—C6B | 118.65 (17) | C5C—C6C—C7C | 122.25 (16) |
C2B—C1B—H1B | 120.7 | C1C—C6C—C7C | 117.42 (16) |
C6B—C1B—H1B | 120.7 | O71C—C7C—O72C | 121.99 (17) |
C1B—C2B—O2B | 121.45 (17) | O71C—C7C—C6C | 124.61 (16) |
C1B—C2B—C3B | 121.57 (17) | O72C—C7C—C6C | 113.40 (15) |
O2B—C2B—C3B | 116.94 (18) | C7C—O72C—C8C | 115.49 (14) |
C2B—O2B—H2B | 105 (2) | O72C—C8C—C9C | 110.03 (15) |
O3B—C3B—C2B | 117.04 (17) | O72C—C8C—H8C1 | 109.7 |
O3B—C3B—C4B | 123.47 (17) | C9C—C8C—H8C1 | 109.7 |
C2B—C3B—C4B | 119.47 (18) | O72C—C8C—H8C2 | 109.7 |
C3B—O3B—H3B | 112 (2) | C9C—C8C—H8C2 | 109.7 |
O4B—C4B—C5B | 123.98 (17) | H8C1—C8C—H8C2 | 108.2 |
O4B—C4B—C3B | 116.65 (18) | O9C—C9C—N9C | 123.49 (17) |
C5B—C4B—C3B | 119.37 (17) | O9C—C9C—C8C | 117.67 (16) |
C4B—O4B—H4B | 106.8 (19) | N9C—C9C—C8C | 118.82 (17) |
C4B—C5B—C6B | 120.96 (17) | C9C—N9C—H91C | 118.8 (19) |
C4B—C5B—H5B | 119.5 | C9C—N9C—H92C | 120.0 (17) |
C6B—C5B—H5B | 119.5 | H91C—N9C—H92C | 121 (3) |
C5B—C6B—C1B | 119.96 (19) | H1W—O1W—H2W | 108 (3) |
D—H···A | D—H | H···A | D···A | D—H···A |
O2A—H2A···O71Bi | 0.96 (3) | 1.99 (3) | 2.931 (2) | 165 (3) |
O3A—H3A···O2A | 0.93 (4) | 2.34 (3) | 2.766 (2) | 107 (3) |
O3A—H3A···O2Bii | 0.93 (4) | 1.91 (4) | 2.807 (2) | 163 (3) |
O4A—H4A···O1W | 0.87 (4) | 1.91 (4) | 2.746 (2) | 160 (3) |
N9A—H91A···O4Aiii | 0.97 (3) | 2.07 (3) | 2.978 (3) | 156 (3) |
N9A—H92A···O4Civ | 0.94 (3) | 2.01 (4) | 2.950 (3) | 176 (3) |
O2B—H2B···O3B | 0.89 (3) | 2.06 (3) | 2.631 (2) | 121 (3) |
O2B—H2B···O2Aii | 0.89 (3) | 2.31 (3) | 2.975 (3) | 131 (3) |
O3B—H3B···O4B | 1.02 (4) | 2.31 (4) | 2.754 (2) | 105 (2) |
O3B—H3B···O9Bv | 1.02 (4) | 1.61 (4) | 2.607 (2) | 164 (3) |
O4B—H4B···O9Av | 0.94 (3) | 1.71 (3) | 2.649 (2) | 177 (3) |
N9B—H91B···O72B | 0.85 (3) | 2.23 (3) | 2.645 (2) | 111 (2) |
N9B—H92B···O9Civ | 0.93 (3) | 2.06 (3) | 2.986 (2) | 172 (2) |
O2C—H2C···O71Avi | 0.87 (3) | 1.83 (3) | 2.688 (2) | 172 (3) |
O3C—H3C···O2C | 0.87 (3) | 2.29 (3) | 2.707 (2) | 110 (3) |
O3C—H3C···O1Wvi | 0.87 (3) | 2.01 (3) | 2.817 (2) | 155 (3) |
O4C—H4C···O3C | 0.84 (3) | 2.28 (3) | 2.697 (2) | 111 (2) |
O4C—H4C···O9Ciii | 0.84 (3) | 2.03 (3) | 2.772 (2) | 147 (2) |
N9C—H91C···O4Bvii | 0.91 (3) | 2.48 (3) | 2.984 (2) | 115 (2) |
N9C—H91C···O9Bviii | 0.91 (3) | 2.05 (3) | 2.943 (3) | 167 (3) |
N9C—H92C···O72C | 0.85 (3) | 2.30 (2) | 2.665 (2) | 106 (2) |
O1W—H1W···O71Cix | 0.95 (3) | 1.86 (3) | 2.807 (2) | 173 (3) |
O1W—H2W···O9Civ | 0.87 (3) | 1.99 (3) | 2.852 (2) | 171 (3) |
Symmetry codes: (i) −x+1, −y, −z+1; (ii) −x, −y+1, −z+1; (iii) x+1, y−1, z; (iv) x, y−1, z; (v) x−1, y+1, z; (vi) −x+2, −y, −z; (vii) x+1, y, z; (viii) x, y+1, z; (ix) −x+1, −y+1, −z. |
Experimental details
Crystal data | |
Chemical formula | C9H9NO6·0.33H2O |
Mr | 233.18 |
Crystal system, space group | Triclinic, P1 |
Temperature (K) | 220 |
a, b, c (Å) | 8.266 (5), 8.515 (4), 20.614 (7) |
α, β, γ (°) | 87.08 (3), 86.56 (3), 78.32 (3) |
V (Å3) | 1417.2 (12) |
Z | 6 |
Radiation type | Cu Kα |
µ (mm−1) | 1.23 |
Crystal size (mm) | 0.62 × 0.28 × 0.24 |
Data collection | |
Diffractometer | Stoe Stadi-4 four-circle diffractometer |
Absorption correction | Numerical (SHELXTL; Sheldrick 1997) |
Tmin, Tmax | 0.617, 0.777 |
No. of measured, independent and observed [I > 2σ(I)] reflections | 8429, 5000, 4192 |
Rint | 0.020 |
(sin θ/λ)max (Å−1) | 0.609 |
Refinement | |
R[F2 > 2σ(F2)], wR(F2), S | 0.043, 0.122, 1.03 |
No. of reflections | 5000 |
No. of parameters | 511 |
H-atom treatment | H atoms treated by a mixture of independent and constrained refinement |
Δρmax, Δρmin (e Å−3) | 0.28, −0.26 |
Computer programs: DIF4 (Stoe & Cie, 1990), DIF4, REDU4 (Stoe & Cie, 1990), SHELXTL (Sheldrick, 1997), SHELXTL and CAMERON (Watkin et al., 1993).
D—H···A | D—H | H···A | D···A | D—H···A |
O2A—H2A···O71Bi | 0.96 (3) | 1.99 (3) | 2.931 (2) | 165 (3) |
O3A—H3A···O2A | 0.93 (4) | 2.34 (3) | 2.766 (2) | 107 (3) |
O3A—H3A···O2Bii | 0.93 (4) | 1.91 (4) | 2.807 (2) | 163 (3) |
O4A—H4A···O1W | 0.87 (4) | 1.91 (4) | 2.746 (2) | 160 (3) |
N9A—H91A···O4Aiii | 0.97 (3) | 2.07 (3) | 2.978 (3) | 156 (3) |
N9A—H92A···O4Civ | 0.94 (3) | 2.01 (4) | 2.950 (3) | 176 (3) |
O2B—H2B···O3B | 0.89 (3) | 2.06 (3) | 2.631 (2) | 121 (3) |
O2B—H2B···O2Aii | 0.89 (3) | 2.31 (3) | 2.975 (3) | 131 (3) |
O3B—H3B···O4B | 1.02 (4) | 2.31 (4) | 2.754 (2) | 105 (2) |
O3B—H3B···O9Bv | 1.02 (4) | 1.61 (4) | 2.607 (2) | 164 (3) |
O4B—H4B···O9Av | 0.94 (3) | 1.71 (3) | 2.649 (2) | 177 (3) |
N9B—H91B···O72B | 0.85 (3) | 2.23 (3) | 2.645 (2) | 111 (2) |
N9B—H92B···O9Civ | 0.93 (3) | 2.06 (3) | 2.986 (2) | 172 (2) |
O2C—H2C···O71Avi | 0.87 (3) | 1.83 (3) | 2.688 (2) | 172 (3) |
O3C—H3C···O2C | 0.87 (3) | 2.29 (3) | 2.707 (2) | 110 (3) |
O3C—H3C···O1Wvi | 0.87 (3) | 2.01 (3) | 2.817 (2) | 155 (3) |
O4C—H4C···O3C | 0.84 (3) | 2.28 (3) | 2.697 (2) | 111 (2) |
O4C—H4C···O9Ciii | 0.84 (3) | 2.03 (3) | 2.772 (2) | 147 (2) |
N9C—H91C···O4Bvii | 0.91 (3) | 2.48 (3) | 2.984 (2) | 115 (2) |
N9C—H91C···O9Bviii | 0.91 (3) | 2.05 (3) | 2.943 (3) | 167 (3) |
N9C—H92C···O72C | 0.85 (3) | 2.30 (2) | 2.665 (2) | 106 (2) |
O1W—H1W···O71Cix | 0.95 (3) | 1.86 (3) | 2.807 (2) | 173 (3) |
O1W—H2W···O9Civ | 0.87 (3) | 1.99 (3) | 2.852 (2) | 171 (3) |
Symmetry codes: (i) −x+1, −y, −z+1; (ii) −x, −y+1, −z+1; (iii) x+1, y−1, z; (iv) x, y−1, z; (v) x−1, y+1, z; (vi) −x+2, −y, −z; (vii) x+1, y, z; (viii) x, y+1, z; (ix) −x+1, −y+1, −z. |
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The title compound, (I), crystallizes with three molecules of carbamoylmethyl 3,4,5-trihydroxybenzoate and one molecule of water per asymmetric unit. Unusually, all three crystallographically independent molecules of the organic compound adopt different conformations (Fig. 1).
Two of the molecules are approximately planar, with the only difference between them being the position of the phenolic H atoms. A third molecule has the amide group lying nearly perpendicular to the plane of the gallate (3,4,5-trihydroxybenzoate), with a dihedral angle between the benzoate and amide planes of 70.80 (7)°.
With each of the molecules possessing five hydrogen-bond donor groups and six acceptor atoms, many different hydrogen-bonding combinations are possible. Graph-set analysis (Etter et al., 1990; Bernstein et al., 1995), using only hydrogen bonds with a H–acceptor distance of 2.5 Å or less (Table 1) is used to characterize the hydrogen-bond patterns. The molecules adopt a pattern of chains of crystallographically identical molecules linked by hydrogen bonds. Each chain is crosslinked to other chains of crystallographically independent molecules to form sheets, in which the water molecules are inserted (Fig. 2; symmetry-related molecules are shown in the same colour). Two types of intramolecular pattern are observed, both S11(5). The first of these is observed in all three crystallographically independent title molecules, being formed by the adjacent hydroxyl groups. Two of these interactions are observed in each of molecules B and C, with only one in the non-planar molecule A. The second S11(5) pattern is observed only in molecules B and C, and is formed by the amide–ester N—H···O interaction. Both the blue and red chains containing the planar molecular units (molecules B and C, respectively) are linked by phenol–amide O—H···O hydrogen bonds, with the red molecules forming C11(10) chains and the blue molecules forming C11(11) chains, the difference arising from which hydroxyl moiety is involved. The green non-planar molecules (molecule A) are linked by amide–phenol N—H···O hydrogen bonds in a C11(10) chain. The red and blue chains are linked in the sheet by R22(8) patterns formed by amide–amide N—H···O hydrogen bonds. The green and blue chains are linked in the sheet by C22(9) patterns formed by hydroxyl–carbonyl and hydroxyl–hydroxyl O—H···O hydrogen bonds. A second hydroxyl–hydroxyl interaction forms R22(7) and R33(14) patterns with these groups. The red and green chains are connected directly and through the water molecule, giving rise to three ring graph sets, viz. R32(14), R33(14) and R44(18).
Links between sheets form double layers and these are provided by the three hydrogen bonds O1W—H2W···O9Civ, N9A—H92A···O4Civ and O4B—H4B···O9Av (Fig. 3; see Table 2 for symmetry codes). No hydrogen bonds are observed between adjacent double layers (Fig. 4).