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The title compound, C11H12O6·H2O, contains a water molecule of hydration and consists of a mostly planar six-membered ring and pendant ester, with a nearly perpendicular orientation of the carboxylic acid group. The structure of this compound was incorrectly reported in the early literature. The crystal structure involves a variety of hydrogen bonds.
Supporting information
 | Crystallographic Information File (CIF) https://doi.org/10.1107/S1600536802020627/lh6015sup1.cif |
 | Structure factor file (CIF format) https://doi.org/10.1107/S1600536802020627/lh6015Isup2.hkl |
CCDC reference: 202336
Key indicators
- Single-crystal X-ray study
- T = 293 K
- Mean
![[sigma]](//journals.iucr.org/logos/entities/sigma_rmgif.gif)
(C-C) = 0.004 Å - R factor = 0.045
- wR factor = 0.113
- Data-to-parameter ratio = 12.3
![[sigma]](http://journals.iucr.org/logos/entities/sigma_rmgif.gif){kind=small}
(C-C) = 0.004 ÅcheckCIF results
No syntax errors found ADDSYM reports no extra symmetry
Experimental top
Crystals of the title compound were obtained by recrystallization from water of the product obtained following a literature procedure (Theilacker & Schmid, 1950).
Refinement top
The water H atoms were refined idependently and resulted in the O—H distances listed in Table 1 and an H—O—H angle of 109 (3)°.
Computing details top
Data collection: CAD-4 EXPRESS (Enraf-Nonius, 1994); cell refinement: CAD-4 EXPRESS; data reduction: XCAD4 (Harms & Wocadlo, 1995); program(s) used to solve structure: SIR97 (Altomare et al., 1999); program(s) used to refine structure: SHELXL97 (Sheldrick, 1997); molecular graphics: ORTEP-3 for Windows (Farrugia, 1997); software used to prepare material for publication: WinGX (Farrugia, 1999).
Figures top
![[Figure 1]](http://journals.iucr.org/e/issues/2002/12/00/lh6015/lh6015fig1thm.gif)
| Fig. 1. ORTEP-3 (Farrugia, 1997) view of (I), shown with 50% probability displacement ellipsoids. H atoms are represented by spheres of arbitrary radii. Hydrogen bonds are indicated by dashed lines. |
(I) top
Crystal data top
| C11H12O6·H2O | F(000) = 544 |
| Mr = 258.22 | Dx = 1.418 Mg m−3 |
| Monoclinic, P21/c | Mo Kα radiation, λ = 0.71073 Å |
| Hall symbol: -P 2ybc | Cell parameters from 25 reflections |
| a = 12.091 (3) Å | θ = 10–15° |
| b = 7.658 (1) Å | µ = 0.12 mm−1 |
| c = 13.784 (2) Å | T = 293 K |
| β = 108.57 (1)° | Prism, white |
| V = 1209.8 (4) Å3 | 0.20 × 0.15 × 0.10 mm |
| Z = 4 |
Data collection top
| Enraf Nonius TurboCAD-4 diffractometer | Rint = 0.027 |
| non–profiled ω/2θ scans | θmax = 25.0°, θmin = 1.8° |
| Absorption correction: ψ scan (North et al., 1968) | h = 0→14 |
| Tmin = 0.976, Tmax = 0.988 | k = 0→9 |
| 2218 measured reflections | l = −16→15 |
| 2113 independent reflections | 3 standard reflections every 166 min |
| 1235 reflections with I > 2σ(I) | intensity decay: 2% |
Refinement top
| Refinement on F2 | 0 restraints |
| Least-squares matrix: full | H atoms treated by a mixture of independent and constrained refinement |
| R[F2 > 2σ(F2)] = 0.045 | w = 1/[σ2(Fo2) + (0.0485P)2 + 0.1688P] where P = (Fo2 + 2Fc2)/3 |
| wR(F2) = 0.113 | (Δ/σ)max < 0.001 |
| S = 1.01 | Δρmax = 0.15 e Å−3 |
| 2113 reflections | Δρmin = −0.20 e Å−3 |
| 172 parameters |
Crystal data top
| C11H12O6·H2O | V = 1209.8 (4) Å3 |
| Mr = 258.22 | Z = 4 |
| Monoclinic, P21/c | Mo Kα radiation |
| a = 12.091 (3) Å | µ = 0.12 mm−1 |
| b = 7.658 (1) Å | T = 293 K |
| c = 13.784 (2) Å | 0.20 × 0.15 × 0.10 mm |
| β = 108.57 (1)° |
Data collection top
| Enraf Nonius TurboCAD-4 diffractometer | 1235 reflections with I > 2σ(I) |
| Absorption correction: ψ scan (North et al., 1968) | Rint = 0.027 |
| Tmin = 0.976, Tmax = 0.988 | 3 standard reflections every 166 min |
| 2218 measured reflections | intensity decay: 2% |
| 2113 independent reflections |
Refinement top
| R[F2 > 2σ(F2)] = 0.045 | 0 restraints |
| wR(F2) = 0.113 | H atoms treated by a mixture of independent and constrained refinement |
| S = 1.01 | Δρmax = 0.15 e Å−3 |
| 2113 reflections | Δρmin = −0.20 e Å−3 |
| 172 parameters |
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. |
Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
| x | y | z | Uiso*/Ueq | ||
| C1 | 0.1839 (2) | 0.2728 (3) | 0.98609 (17) | 0.0351 (6) | |
| C2 | 0.2156 (2) | 0.4505 (3) | 1.00941 (17) | 0.0352 (6) | |
| C3 | 0.1719 (2) | 0.5364 (3) | 1.08049 (19) | 0.0390 (6) | |
| O3 | 0.19671 (18) | 0.7060 (2) | 1.10699 (14) | 0.0577 (6) | |
| H31 | 0.2347 | 0.7476 | 1.0728 | 0.073 (11)* | |
| C4 | 0.1003 (2) | 0.4521 (3) | 1.12645 (19) | 0.0408 (7) | |
| H4 | 0.0719 | 0.5112 | 1.1725 | 0.049* | |
| O5 | 0.00048 (16) | 0.1898 (2) | 1.14546 (14) | 0.0548 (6) | |
| H5 | −0.0199 | 0.2541 | 1.1842 | 0.082* | |
| C5 | 0.0716 (2) | 0.2799 (3) | 1.10322 (19) | 0.0398 (6) | |
| C6 | 0.1139 (2) | 0.1921 (3) | 1.03436 (19) | 0.0396 (6) | |
| H6 | 0.0944 | 0.0752 | 1.0203 | 0.048* | |
| C11 | 0.2227 (2) | 0.1641 (3) | 0.91090 (18) | 0.0385 (6) | |
| H11A | 0.1718 | 0.0634 | 0.8914 | 0.046* | |
| H11B | 0.2131 | 0.2329 | 0.8497 | 0.046* | |
| C12 | 0.3460 (2) | 0.1020 (3) | 0.9505 (2) | 0.0376 (6) | |
| O11 | 0.38513 (16) | 0.0404 (2) | 0.87881 (12) | 0.0509 (5) | |
| H11C | 0.4528 | 0.0077 | 0.9045 | 0.076* | |
| O12 | 0.40287 (15) | 0.1019 (2) | 1.04138 (14) | 0.0485 (5) | |
| C21 | 0.2896 (2) | 0.5544 (4) | 0.96459 (19) | 0.0422 (7) | |
| C22 | 0.4083 (3) | 0.5684 (4) | 0.8565 (2) | 0.0575 (8) | |
| H22A | 0.4749 | 0.6181 | 0.9086 | 0.069* | |
| H22B | 0.3628 | 0.6629 | 0.8162 | 0.069* | |
| C23 | 0.4478 (4) | 0.4484 (5) | 0.7903 (3) | 0.0989 (14) | |
| H23A | 0.4951 | 0.5113 | 0.7579 | 0.148* | |
| H23B | 0.3812 | 0.4004 | 0.739 | 0.148* | |
| H23C | 0.4928 | 0.3556 | 0.831 | 0.148* | |
| O21 | 0.30898 (19) | 0.7097 (3) | 0.98169 (16) | 0.0666 (7) | |
| O22 | 0.33670 (15) | 0.4666 (2) | 0.90433 (13) | 0.0450 (5) | |
| O100 | 0.0957 (2) | 0.8752 (3) | 1.24130 (17) | 0.0608 (6) | |
| H101 | 0.061 (3) | 0.970 (6) | 1.211 (3) | 0.119 (17)* | |
| H102 | 0.125 (3) | 0.824 (5) | 1.203 (3) | 0.094 (14)* |
Atomic displacement parameters (Å2) top
| U11 | U22 | U33 | U12 | U13 | U23 | |
| C1 | 0.0321 (14) | 0.0357 (15) | 0.0377 (14) | 0.0009 (12) | 0.0114 (12) | −0.0033 (12) |
| C2 | 0.0356 (15) | 0.0352 (15) | 0.0383 (13) | 0.0000 (12) | 0.0168 (12) | −0.0002 (12) |
| C3 | 0.0469 (16) | 0.0293 (14) | 0.0442 (14) | 0.0010 (13) | 0.0195 (13) | −0.0023 (12) |
| O3 | 0.0811 (15) | 0.0339 (11) | 0.0776 (14) | −0.0105 (10) | 0.0529 (13) | −0.0110 (10) |
| C4 | 0.0485 (17) | 0.0361 (15) | 0.0459 (15) | 0.0041 (13) | 0.0262 (14) | −0.0023 (12) |
| O5 | 0.0665 (14) | 0.0411 (11) | 0.0752 (14) | −0.0074 (10) | 0.0487 (12) | −0.0028 (10) |
| C5 | 0.0382 (15) | 0.0392 (16) | 0.0481 (15) | 0.0017 (13) | 0.0221 (13) | 0.0062 (13) |
| C6 | 0.0394 (16) | 0.0313 (14) | 0.0512 (15) | −0.0030 (12) | 0.0188 (13) | −0.0053 (13) |
| C11 | 0.0387 (15) | 0.0377 (15) | 0.0417 (14) | −0.0048 (12) | 0.0163 (13) | −0.0094 (12) |
| C12 | 0.0458 (16) | 0.0300 (14) | 0.0441 (16) | −0.0030 (13) | 0.0245 (14) | −0.0021 (12) |
| O11 | 0.0560 (12) | 0.0604 (13) | 0.0443 (10) | 0.0147 (10) | 0.0271 (10) | −0.0016 (9) |
| O12 | 0.0508 (12) | 0.0543 (12) | 0.0433 (11) | 0.0119 (10) | 0.0188 (9) | −0.0049 (10) |
| C21 | 0.0447 (17) | 0.0406 (17) | 0.0443 (15) | −0.0032 (14) | 0.0185 (14) | −0.0015 (13) |
| C22 | 0.066 (2) | 0.057 (2) | 0.0620 (18) | −0.0099 (17) | 0.0393 (17) | 0.0043 (16) |
| C23 | 0.140 (4) | 0.097 (3) | 0.101 (3) | −0.029 (3) | 0.095 (3) | −0.018 (2) |
| O21 | 0.0930 (17) | 0.0403 (13) | 0.0894 (15) | −0.0190 (11) | 0.0614 (14) | −0.0129 (11) |
| O22 | 0.0514 (11) | 0.0432 (11) | 0.0514 (10) | −0.0050 (9) | 0.0319 (10) | −0.0012 (9) |
| O100 | 0.0777 (16) | 0.0527 (14) | 0.0704 (14) | 0.0089 (13) | 0.0495 (14) | 0.0057 (12) |
Geometric parameters (Å, º) top
| C1—C6 | 1.379 (3) | C11—H11B | 0.97 |
| C1—C2 | 1.422 (3) | C12—O12 | 1.222 (3) |
| C1—C11 | 1.515 (3) | C12—O11 | 1.312 (3) |
| C2—C3 | 1.415 (3) | O11—H11C | 0.82 |
| C2—C21 | 1.472 (3) | C21—O21 | 1.221 (3) |
| C3—O3 | 1.357 (3) | C21—O22 | 1.330 (3) |
| C3—C4 | 1.385 (3) | C22—O22 | 1.468 (3) |
| O3—H31 | 0.82 | C22—C23 | 1.478 (4) |
| C4—C5 | 1.375 (3) | C22—H22A | 0.97 |
| C4—H4 | 0.93 | C22—H22B | 0.97 |
| O5—C5 | 1.369 (3) | C23—H23A | 0.96 |
| O5—H5 | 0.82 | C23—H23B | 0.96 |
| C5—C6 | 1.387 (3) | C23—H23C | 0.96 |
| C6—H6 | 0.93 | O100—H101 | 0.88 (4) |
| C11—C12 | 1.494 (4) | O100—H102 | 0.82 (3) |
| C11—H11A | 0.97 | ||
| C6—C1—C2 | 118.8 (2) | C1—C11—H11B | 108.6 |
| C6—C1—C11 | 117.1 (2) | H11A—C11—H11B | 107.6 |
| C2—C1—C11 | 124.1 (2) | O12—C12—O11 | 123.5 (2) |
| C3—C2—C1 | 117.9 (2) | O12—C12—C11 | 123.1 (2) |
| C3—C2—C21 | 116.7 (2) | O11—C12—C11 | 113.4 (2) |
| C1—C2—C21 | 125.3 (2) | C12—O11—H11C | 109.5 |
| O3—C3—C4 | 116.1 (2) | O21—C21—O22 | 121.3 (2) |
| O3—C3—C2 | 122.2 (2) | O21—C21—C2 | 123.4 (2) |
| C4—C3—C2 | 121.7 (2) | O22—C21—C2 | 115.3 (2) |
| C3—O3—H31 | 109.5 | O22—C22—C23 | 107.4 (2) |
| C5—C4—C3 | 119.3 (2) | O22—C22—H22A | 110.2 |
| C5—C4—H4 | 120.4 | C23—C22—H22A | 110.2 |
| C3—C4—H4 | 120.4 | O22—C22—H22B | 110.2 |
| C5—O5—H5 | 109.5 | C23—C22—H22B | 110.2 |
| O5—C5—C4 | 122.0 (2) | H22A—C22—H22B | 108.5 |
| O5—C5—C6 | 117.7 (2) | C22—C23—H23A | 109.5 |
| C4—C5—C6 | 120.3 (2) | C22—C23—H23B | 109.5 |
| C1—C6—C5 | 122.0 (2) | H23A—C23—H23B | 109.5 |
| C1—C6—H6 | 119 | C22—C23—H23C | 109.5 |
| C5—C6—H6 | 119 | H23A—C23—H23C | 109.5 |
| C12—C11—C1 | 114.5 (2) | H23B—C23—H23C | 109.5 |
| C12—C11—H11A | 108.6 | C21—O22—C22 | 116.3 (2) |
| C1—C11—H11A | 108.6 | H101—O100—H102 | 109 (3) |
| C12—C11—H11B | 108.6 |
Hydrogen-bond geometry (Å, º) top
| D—H···A | D—H | H···A | D···A | D—H···A |
| O3—H31···O21 | 0.82 | 1.78 | 2.514 (2) | 147 |
| O5—H5···O100i | 0.82 | 1.83 | 2.639 (3) | 168 |
| O11—H11C···O12ii | 0.82 | 1.86 | 2.678 (3) | 171 |
| O100—H101···O5iii | 0.88 (4) | 1.94 (4) | 2.812 (3) | 174 (4) |
| O100—H102···O3 | 0.82 (3) | 2.01 (4) | 2.835 (3) | 178 (4) |
| Symmetry codes: (i) −x, y−1/2, −z+5/2; (ii) −x+1, −y, −z+2; (iii) x, y+1, z. |
Experimental details
| Crystal data | |
| Chemical formula | C11H12O6·H2O |
| Mr | 258.22 |
| Crystal system, space group | Monoclinic, P21/c |
| Temperature (K) | 293 |
| a, b, c (Å) | 12.091 (3), 7.658 (1), 13.784 (2) |
| β (°) | 108.57 (1) |
| V (Å3) | 1209.8 (4) |
| Z | 4 |
| Radiation type | Mo Kα |
| µ (mm−1) | 0.12 |
| Crystal size (mm) | 0.20 × 0.15 × 0.10 |
| Data collection | |
| Diffractometer | Enraf Nonius TurboCAD-4 diffractometer |
| Absorption correction | ψ scan (North et al., 1968) |
| Tmin, Tmax | 0.976, 0.988 |
| No. of measured, independent and observed [I > 2σ(I)] reflections | 2218, 2113, 1235 |
| Rint | 0.027 |
| (sin θ/λ)max (Å−1) | 0.594 |
| Refinement | |
| R[F2 > 2σ(F2)], wR(F2), S | 0.045, 0.113, 1.01 |
| No. of reflections | 2113 |
| No. of parameters | 172 |
| H-atom treatment | H atoms treated by a mixture of independent and constrained refinement |
| Δρmax, Δρmin (e Å−3) | 0.15, −0.20 |
Computer programs: CAD-4 EXPRESS (Enraf-Nonius, 1994), CAD-4 EXPRESS, XCAD4 (Harms & Wocadlo, 1995), SIR97 (Altomare et al., 1999), SHELXL97 (Sheldrick, 1997), ORTEP-3 for Windows (Farrugia, 1997), WinGX (Farrugia, 1999).
Hydrogen-bond geometry (Å, º) top
| D—H···A | D—H | H···A | D···A | D—H···A |
| O3—H31···O21 | 0.82 | 1.78 | 2.514 (2) | 147 |
| O5—H5···O100i | 0.82 | 1.83 | 2.639 (3) | 168 |
| O11—H11C···O12ii | 0.82 | 1.86 | 2.678 (3) | 171 |
| O100—H101···O5iii | 0.88 (4) | 1.94 (4) | 2.812 (3) | 174 (4) |
| O100—H102···O3 | 0.82 (3) | 2.01 (4) | 2.835 (3) | 178 (4) |
| Symmetry codes: (i) −x, y−1/2, −z+5/2; (ii) −x+1, −y, −z+2; (iii) x, y+1, z. |
The Pechmann reaction (Cornelius & von Pechmann, 1886) (see Scheme) was one of the earliest biomimetric syntheses, and involves conversion of an aliphatic ester to an aromatic phenolic acid. The reaction and variants find wide application in classical synthetic chemistry. While repeating the reaction of the Scheme (R = Et) following a more recent procedure (Theilacker & Schmid, 1950), we isolated about 5% of a colorless crystalline fraction from the acid hydrolysis that was soluble in hot water but insoluble in chloroform. Initially thought to be inorganic, the material after recrystallization from water fused about 443 K and melted completely by 473 K. The compound slowly turned brown on standing in air.
X-Ray crystallographic analysis revealed the monohydrated structure, (I), shown below, arising in the second step from incomplete hydrolysis and decarboxylation.
Compound (I) was not found in the Cambridge Structural Database (Allen, 2002). However, Jerdan (1899) described a number of intermediates from the Pechmann reaction and their transformation products. He ascribed structure (I) to one of them melting at 417–419 K. Most interestingly, Jerdan described another intermediate, 4-monoethylic hydrogen para-orcinoldicarboxylate, as a monohydrate melting at 463 K that was soluble in water but insoluble in chloroform. He assigned structure (II) to this compound. Since his description closely matches the properties of our product, it is likely that Jerdan's assignments are incorrect. In fact, some of Jerdan's other intermediates were also reassigned (Asahina & Nogami, 1940; Theilacker & Schmid, 1950). Compound (I) was previously used as a reactant to form 2,4-dihydroxy-6-methylbenzoic acid ethyl ester (Asahina & Nogami, 1942).
The water molecule of solvation is stabilized by hydrogen bonds (Table 1), by interaction with the hydroxy groups on the acid as is normally the case with compounds containing water molecules of solvation. This results in a chain structure with the hydroxy part of the acid molecule pointing to and interacting with water molecules of solvation and the hydrophobic end of the acid molecules on adjacent chains facing each other. Parallel chains are held together by the expected carboxylic acid dimerization via hydrogen bonding.