Absolute Structure Absolute Configuration

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Transcription:

Absolute Structure Absolute Configuration

Some definitions Absolute Configuration -> spatial arrangement of the atoms for a chiral molecule (R/S, P/M or D/L assignment). Absolute Structure -> spatial arrangement of atoms in a noncentrosymmetric crystal structure (unit-cell, space group)

Chiral molecules Molecules that cannot be superimposed with their mirror image Two mirror images of a chiral molecule are called enantiomers, they are optical isomers Determination of absolute configuration -> handness of the molecule

Asymmetric carbon atoms (R/S) Axial chirality Origin of chirality R-Binol S-Binol Chiral Propeller Arrangement (P/M or / ) Helicenes

In the solid state Chiral molecules can crystallize as an enantiopure bulk sample or as a racemic mixture. For enantiopure crystals Space group restriction: Only 65 space groups allowed for chiral molecules: No Inversion Center / No Mirror / No Glide Plane These include 11 pairs of eniantomorph space groups (screw axes of opposite handedness) eg: P4 1 /P4 3 or P6 1 /P6 5

Space Group Restrictions 85 %

Racemic mixture In the solid state 1) Conglomerate: a mixture of well-resolved crystals of both enantiomers Chiral space group Individual crystals have an optical activity 5-10 % 2) Racemates: One type of crystal containing the two enantiommers in a well defined stoechiometry. No optical activity Usually centrosymmetric space group 90-95 %

Conglomerate

Racemates

Racemic mixture In the solid state 3) Inversion twin : twinned crystals of both enantiomers Chiral space group 4) Disordered solid-solution: Crystal containing the two enantiomers in a disordered arrangement. Usually centrosymmetric space group

Louis Pasteur Experiment (1848): Separation of the two enantiomers by the visual sorting of crystals of a conglomerate D-(-) levotartaric acid L-(+) dextrotartaric acid Sodium ammonium tartrate cristals

P2 1 P2 1 /c

Intensity (u.a.) Powder diffraction 10000 8000 Ammonium Hydrogen Tartrate P2 1 2 1 2 1 6000 4000 2000 0 10 20 30 40 50 2 (degrees) The two eniantopure samples and the conglomerate give the same powder X-ray diffraction pattern

Intensity (u.a.) Intensity (u.a.) Powder diffraction 10000 8000 Ammonium Hydrogen Tartrate P2 1 2 1 2 1 6000 4000 2000 0 10 20 30 40 50 2 (degrees) 10000 Ammonium Hydrogen Tartrate P2 1 /c 8000 6000 4000 2000 0 10 20 30 40 50 2 (degrees)

Polar structures Achiral molecules can crystallize in chiral and non-centrosymmetric space groups Helical arrangement of SiO 4 tetrahedra in a-quartz (P3 1 21)

How we determine Absolute Configuration? Method 1 : Internal Chiral Reference Method 2 : From Absolute Structure

Absolute configuration from an internal chiral reference Co-crystallisation with a compound of known absolute configuration HOOC S N S COOMe H 3 C H NH 2 O O Iding et al., Tetrahedron Asymmetry 14 (2003) 1541-1545

Absolute configuration from Absolute Structure Method based on the anomalous scattering Friedel s Law is not respected: F( h, k, l) F( h, k, l) Heavy atom should be present: Light atoms usually show only a small anomalous dispersion effect MoKa: element > P (15) CuKa: element > O (8)

Absolute Configuration from Absolute Structure Refine the structure and its inverse, compare the R- factors Calculated pairs of reflections hkl vs hkl (Friedel /Bijvoet Pairs) can be examined Refinement of the Flack Parameter x I calc ( h, k, l) (1 x) F ( h, k, l) x F ( h, k, l) calc 2 calc 2 0 x 1 Diffraction from a crystal twinned by inversion

Reporting absolute structure Report x and its esd u If u > 0.3 : absolute structure cannot be determined reliably. 0 < x < 1 x 0: correct absolute structure x 1: wrong absolute structure invert structure! x 0.5: inversion twin

Refinement in Shelx

Refinement in Shelx L.S. 4 BOND $H TWIN BASF 0.1 FMAP 2 PLAN 5 ACTA WGHT 0.033700 0.22360 FVAR 0.63488 MOLE 1 C1 1 0.520368 0.124011 0.630898 11.00000 0.01969 0.02799 = 0.02473-0.00013 0.00023-0.00137 C2 1 0.331654 0.188750 0.637001 11.00000 0.01956 0.02677 = 0.02943 0.00099-0.00139 0.00077 AFIX 13 H2 2 0.279971 0.174102 0.556762 11.00000-1.20000 AFIX 0

Refinement in Shelx L.S. 4 BOND $H TWIN BASF 0.0674 FMAP 2 PLAN 5 ACTA WGHT 0.033700 0.22360 FVAR 0.63488 MOLE 1 C1 1 0.520368 0.124011 0.630898 11.00000 0.01969 0.02799 = 0.02473-0.00013 0.00023-0.00137 C2 1 0.331654 0.188750 0.637001 11.00000 0.01956 0.02677 = 0.02943 0.00099-0.00139 0.00077 AFIX 13 H2 2 0.279971 0.174102 0.556762 11.00000-1.20000 AFIX 0

Refinement in Shelx

Hooft parameter Hooft R. B. W., Straver L. H., Spek A. L. Determination of absolute structure using Bayesian statistics on Bijvoet differences. J. Applied Cryst. (2008) 41, 96-103. Run SHELX without refining the Flack parameter. Generate the CIF file and the corresponding.fcf reflection file (ACTA instruction). Run PLATON and open the CIF File. On the Graphical Menu, select the ByVoetPair option.

Hooft parameter

Absolute Configuration from Absolute Structure Once you have determined the absolute structure and the absolute configuration of the molecule, you should ensure that the bulk sample is eniantopure i.e. contains only the eniantomer found. (eg. circular dichroism, chromatograpy) Useful References: H.D. Flack, G. Bernardinelli, Absolute structure and absolute configuration. Acta Cryst, (1999) A55, 908-915. H.D. Flack, G. Bernardinelli, Reporting and evaluating absolute structure and absolute configuration determinations. J. Applied Cryst. (2000) 33, 1143-1148. Thompson A. L., Watkin D. J. X-ray crystallography and chiralty: understanding the limitations. Tetrahedron: Asymmetry (2009) 20, 712-719