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The crystal structure of divainillin (systematic name: 6,6′-dihydroxy-5,5′-dimethoxy-[1,1′-biphenyl]-3,3′-dicarbaldehyde), C16H14O6, was determined from laboratory powder X-ray diffraction data using the software EXPO2013 (direct methods) and WinPSSP (direct-space approach). Divanillin molecules crystallize in the orthorhombic space group Pba2 (No. 32), with two molecules per unit cell (Z′ = 
). Each divanillin molecule, with twofold symmetry, is linked through strong alcohol–aldehyde hydrogen bonds to four equivalent molecules, defining a three-dimensional hydrogen-bonding network, with rings made up of six divanillin units (a diamond-like arrangement). Each molecule is also connected through π–π interactions to a translation-equivalent molecule along c. Four consecutive molecules stacked along [001] belong to four different three-dimensional hydrogen-bonding networks defining a quadruple array of interpenetrating networks. This complex hydrogen-bonding array is proposed as an explanation for the aging process experienced by divanillin powders.
). Each divanillin molecule, with twofold symmetry, is linked through strong alcohol–aldehyde hydrogen bonds to four equivalent molecules, defining a three-dimensional hydrogen-bonding network, with rings made up of six divanillin units (a diamond-like arrangement). Each molecule is also connected through π–π interactions to a translation-equivalent molecule along c. Four consecutive molecules stacked along [001] belong to four different three-dimensional hydrogen-bonding networks defining a quadruple array of interpenetrating networks. This complex hydrogen-bonding array is proposed as an explanation for the aging process experienced by divanillin powders.Keywords: divanillin; powder diffraction; dia (Ia) topology; interpenetrating hydrogen-bond network; power diffraction; DFT-D calculation; lignin model; computational chemistry.
Supporting information
 | Crystallographic Information File (CIF) https://doi.org/10.1107/S2053229618016200/sk3715sup1.cif |
 | Rietveld powder data file (CIF format) https://doi.org/10.1107/S2053229618016200/sk3715Isup2.rtv |
 | Portable Document Format (PDF) file https://doi.org/10.1107/S2053229618016200/sk3715sup3.pdf |
 | Chemical Markup Language (CML) file https://doi.org/10.1107/S2053229618016200/sk3715Isup4.cml |
CCDC reference: 1879238
Computing details top
Program(s) used to solve structure: direct methods; program(s) used to refine structure: GSAS.
6,6'-Dihydroxy-5,5'-dimethoxy-[1,1'-biphenyl]-3,3'-dicarbaldehyde top
Crystal data top
| C16H14O6 | V = 674.79 (1) Å3 |
| Mr = 302.28 | Z = 2 |
| Orthorhombic, Pba2 | Dx = 1.488 Mg m−3 |
| Hall symbol: P 2 -2ab | CuKα1, CuKα2 radiation, λ = 1.540598, 1.544426 Å |
| a = 12.28767 (11) Å | T = 293 K |
| b = 13.97200 (18) Å | light yellow |
| c = 3.93043 (4) Å | flat_sheet, 20 × 0.5 mm |
Data collection top
| Rigaku ULTIMA IV diffractometer | Data collection mode: reflection, θ-θ geometry |
| Radiation source: sealed X-ray tube | Scan method: step |
| Curved Ge crystal monochromator | 2θmin = 4.994°, 2θmax = 108.104°, 2θstep = 0.01° |
| Specimen mounting: Glass sample holder with a 20x20x0.5 mm indentation for the sample |
Refinement top
| Least-squares matrix: full | 116 parameters |
| Rp = 0.035 | 56 restraints |
| Rwp = 0.049 | H-atom parameters not defined? |
| Rexp = 0.022 | (Δ/σ)max = 0.02 |
| R(F2) = 0.05040 | Background function: GSAS Background function number 7 with 36 terms. Linear interpolation 1: 746.117 2: 636.840 3: 820.260 4: 1087.66 5: 1340.36 6: 1694.77 7: 1939.95 8: 1780.04 9: 1470.80 10: 1469.09 11: 1171.58 12: 1220.23 13: 1099.08 14: 1133.77 15: 1082.14 16: 1040.03 17: 920.035 18: 960.677 19: 942.495 20: 867.667 21: 833.747 22: 817.667 23: 803.239 24: 778.713 25: 734.737 26: 743.098 27: 717.039 28: 697.800 29: 637.240 30: 613.791 31: 574.878 32: 571.899 33: 544.400 34: 538.892 35: 514.075 36: 523.654 |
| 10312 data points | Preferred orientation correction: March-Dollase AXIS 1 Ratio= 0.77078 h= 1.000 k= 0.000 l= 0.000 Prefered orientation correction range: Min= 0.67671, Max= 2.18374 |
| Profile function: CW Profile function number 3 with 19 terms pseudo-Voigt profile coefficients as parameterized in P. Thompson, D.E. Cox & J.B. Hastings (1987). J. Appl. Cryst.,20,79-83. Asymmetry correction of L.W. Finger, D.E. Cox & A. P. Jephcoat (1994). J. Appl. Cryst.,27,892-900. #1(GU) = 280.285 #2(GV) = -19.927 #3(GW) = 18.038 #4(GP) = 0.000 #5(LX) = 5.378 #6(LY) = 0.000 #7(S/L) = 0.0295 #8(H/L) = 0.0301 #9(trns) = 8.98 #10(shft)= 0.0000 #11(stec)= 0.00 #12(ptec)= 0.00 #13(sfec)= 0.00 #14(L11) = 0.026 #15(L22) = -0.035 #16(L33) = 2.037 #17(L12) = -0.015 #18(L13) = 0.214 #19(L23) = -0.135 Peak tails are ignored where the intensity is below 0.0010 times the peak Aniso. broadening axis 0.0 0.0 1.0 |
Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
| x | y | z | Uiso*/Ueq | ||
| O1 | 0.13485 (8) | 0.31375 (11) | 0.8931 (7) | 0.0784 (8)* | |
| O2 | 0.20440 (9) | 0.64551 (12) | 0.2917 (7) | 0.0663 (8)* | |
| O3 | 0.42399 (10) | 0.64420 (7) | 0.2402 (5) | 0.0707 (7)* | |
| C1 | 0.27806 (12) | 0.41290 (11) | 0.6785 (6) | 0.0470 (13)* | |
| C2 | 0.21080 (10) | 0.48780 (17) | 0.5520 (9) | 0.0493 (11)* | |
| C3 | 0.26177 (13) | 0.56830 (16) | 0.4107 (11) | 0.0598 (13)* | |
| C4 | 0.37574 (11) | 0.57070 (11) | 0.4036 (6) | 0.0607 (14)* | |
| C5 | 0.44038 (11) | 0.49460 (17) | 0.5 | 0.0375 (12)* | |
| C6 | 0.38971 (11) | 0.41765 (11) | 0.6453 (6) | 0.0532 (13)* | |
| C7 | 0.23099 (9) | 0.32760 (9) | 0.8444 (6) | 0.0808 (14)* | |
| C8 | 0.08772 (11) | 0.64343 (8) | 0.3383 (3) | 0.0567 (9)* | |
| H2 | 0.13565 (13) | 0.4859 (6) | 0.579 (2) | 0.0592 (13)* | |
| H3 | 0.4013 (4) | 0.70692 (13) | 0.2997 (15) | 0.0848 (9)* | |
| H6 | 0.4332 (2) | 0.37013 (16) | 0.7397 (10) | 0.0638 (15)* | |
| H7 | 0.2795 (2) | 0.27727 (16) | 0.9036 (16) | 0.0969 (16)* | |
| H8A | 0.0593 (3) | 0.70318 (13) | 0.2656 (12) | 0.0681 (11)* | |
| H8B | 0.0718 (4) | 0.6328 (5) | 0.5720 (4) | 0.0681 (11)* | |
| H8C | 0.0553 (3) | 0.59394 (16) | 0.2069 (7) | 0.0681 (11)* |
Geometric parameters (Å, º) top
| C3—C2 | 1.402 (4) | C7—C1 | 1.477 (2) |
| C3—C4 | 1.401 (2) | C7—O1 | 1.2124 (16) |
| C3—O2 | 1.371 (3) | C7—H7 | 0.951 (3) |
| C2—C3 | 1.402 (4) | O1—C7 | 1.2124 (16) |
| C2—C1 | 1.423 (3) | C8—O2 | 1.4456 (18) |
| C2—H2 | 0.930 (2) | C8—H8A | 0.949 (3) |
| C1—C2 | 1.423 (3) | C8—H8B | 0.951 (3) |
| C1—C6 | 1.380 (2) | C8—H8C | 0.951 (3) |
| C1—C7 | 1.477 (2) | H6—C6 | 0.929 (3) |
| C6—C1 | 1.380 (2) | H2—C2 | 0.930 (2) |
| C6—C5 | 1.367 (3) | H8A—C8 | 0.949 (3) |
| C6—H6 | 0.929 (3) | H8A—H8B | 1.562 (6) |
| C5—C6 | 1.367 (3) | H8A—H8C | 1.545 (3) |
| C5—C5i | 1.473 (3) | H8B—C8 | 0.951 (3) |
| C5—C4 | 1.380 (3) | H8B—H8A | 1.562 (6) |
| C4—C3 | 1.401 (2) | H8B—H8C | 1.548 (4) |
| C4—C5 | 1.380 (3) | H8C—C8 | 0.951 (3) |
| C4—O3 | 1.349 (2) | H8C—H8A | 1.545 (3) |
| O3—C4 | 1.349 (2) | H8C—H8B | 1.548 (4) |
| O3—H3 | 0.949 (3) | H7—C7 | 0.951 (3) |
| O2—C3 | 1.371 (3) | H3—O3 | 0.949 (3) |
| O2—C8 | 1.4456 (18) | ||
| C2—C3—C4 | 118.3 (2) | C3—C4—C5 | 123.45 (17) |
| C2—C3—O2 | 122.46 (15) | C3—C4—O3 | 117.85 (18) |
| C4—C3—O2 | 119.2 (2) | C5—C4—O3 | 117.67 (13) |
| C3—C2—C1 | 117.96 (13) | C4—O3—H3 | 117.2 (3) |
| C3—C2—H2 | 120.7 (5) | C3—O2—C8 | 116.80 (16) |
| C1—C2—H2 | 121.1 (6) | C1—C7—O1 | 125.47 (15) |
| C2—C1—C6 | 120.60 (16) | C1—C7—H7 | 117.4 (2) |
| C2—C1—C7 | 121.35 (13) | O1—C7—H7 | 117.0 (2) |
| C6—C1—C7 | 118.04 (14) | O2—C8—H8A | 108.0 (3) |
| C1—C6—C5 | 122.01 (15) | O2—C8—H8B | 109.2 (4) |
| C1—C6—H6 | 119.9 (2) | O2—C8—H8C | 111.2 (3) |
| C5—C6—H6 | 117.9 (2) | H8A—C8—H8B | 110.6 (5) |
| C6—C5—C5i | 122.2 (2) | H8A—C8—H8C | 108.8 (3) |
| C6—C5—C4 | 117.29 (13) | H8B—C8—H8C | 109.0 (4) |
| C5i—C5—C4 | 119.6 (2) |
| Symmetry code: (i) −x+1, −y+1, z. |
Hydrogen-bond geometry (Å, º) top
| D—H···A | D—H | H···A | D···A | D—H···A |
| O3—H3···O1ii | 0.949 (3) | 2.231 (5) | 2.828 (2) | 120.0 (5) |
| Symmetry code: (ii) −x+1/2, y+1/2, z−1. |
