Solid-state conformations and absolute configurations of (+) and (−) α-, β-, and γ-hexabromocyclododecanes (HBCDs)

Hexabromocyclododecanes (HBCDs) are high production volume chemicals used as flame retardants for plastics and textiles. They are currently produced in quantities exceeding 20 000 t/y. Despite this fact, the correct stereochemistry of most HBCDs is still not known. Six stereocenters are formed durin...

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Veröffentlicht in:	Chemosphere (Oxford) 2007-06, Vol.68 (5), p.940-950
Hauptverfasser:	Heeb, Norbert V., Schweizer, W. Bernd, Mattrel, Peter, Haag, Regula, Gerecke, Andreas C., Kohler, Martin, Schmid, Peter, Zennegg, Markus, Wolfensberger, Max
Format:	Artikel
Sprache:	eng
Schlagworte:	Aliphatic, non-condensed and condensed benzenic, and alicyclic compounds Applied sciences Brominated flame retardants Chromatography, Liquid Condensed matter: structure, mechanical and thermal properties Crystallography, X-Ray Exact sciences and technology Extended triple turn motive Flame Retardants Global environmental pollution HBCD crystal structures Hydrocarbons, Brominated - chemistry Mass Spectrometry Models, Molecular Molecular Conformation Molecular Structure Organic compounds Physics Pollution Relative and absolute configurations Resolution of enantiomers Stereoisomerism Structure of solids and liquids crystallography Structure of specific crystalline solids
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creator	Heeb, Norbert V. Schweizer, W. Bernd Mattrel, Peter Haag, Regula Gerecke, Andreas C. Kohler, Martin Schmid, Peter Zennegg, Markus Wolfensberger, Max
description	Hexabromocyclododecanes (HBCDs) are high production volume chemicals used as flame retardants for plastics and textiles. They are currently produced in quantities exceeding 20 000 t/y. Despite this fact, the correct stereochemistry of most HBCDs is still not known. Six stereocenters are formed during bromination of cyclododecatrienes, resulting in mixtures of different stereoisomers. Considering all elements of symmetry, 16 different stereoisomers including six pairs of enantiomers as well as 4 meso forms are possible theoretically. Recently, we isolated 8 of the 16 possible stereoisomers from a technical HBCD mixture and assigned their relative configurations. Herein, we report on the isolation of 6 enantiomerically pure α-, β-, and γ-HBCDs, obtained from preparative chiral-phase liquid chromatography, and we present their absolute configurations, which were determined from X-ray diffraction analysis. The absolute configuration of (−) α-HBCD was found to be (1 R,2 R,5 S,6 R,9 R,10 S), while the one of (+) β-HBCD is assigned to (1 S,2 S,5 S,6 R,9 S,10 R), whereas the one of (−) γ-HBCD corresponds to (1 S,2 S,5 S,6 R,9 R,10 S). The given structural information allows the unambiguous identification of the six most important HBCD stereoisomers, which typically account for more than 95% of technical HBCDs. In addition, we compared the solid-state conformations of racemic and enantiomerically pure α-, β-, and γ-HBCDs. In all cases, vicinal dibromides adopted a synclinal (sc) conformation with torsion angles of 69 ± 6°. A unique structural motive was common to all examined HBCD solid-state conformations. This conserved structure was described as an extended triple turn consisting of an arrangement of three pairs of synclinal and two antiperiplanar torsion angles.
doi_str_mv	10.1016/j.chemosphere.2007.01.032
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Bernd ; Mattrel, Peter ; Haag, Regula ; Gerecke, Andreas C. ; Kohler, Martin ; Schmid, Peter ; Zennegg, Markus ; Wolfensberger, Max</creator><creatorcontrib>Heeb, Norbert V. ; Schweizer, W. Bernd ; Mattrel, Peter ; Haag, Regula ; Gerecke, Andreas C. ; Kohler, Martin ; Schmid, Peter ; Zennegg, Markus ; Wolfensberger, Max</creatorcontrib><description>Hexabromocyclododecanes (HBCDs) are high production volume chemicals used as flame retardants for plastics and textiles. They are currently produced in quantities exceeding 20 000 t/y. Despite this fact, the correct stereochemistry of most HBCDs is still not known. Six stereocenters are formed during bromination of cyclododecatrienes, resulting in mixtures of different stereoisomers. Considering all elements of symmetry, 16 different stereoisomers including six pairs of enantiomers as well as 4 meso forms are possible theoretically. Recently, we isolated 8 of the 16 possible stereoisomers from a technical HBCD mixture and assigned their relative configurations. Herein, we report on the isolation of 6 enantiomerically pure α-, β-, and γ-HBCDs, obtained from preparative chiral-phase liquid chromatography, and we present their absolute configurations, which were determined from X-ray diffraction analysis. The absolute configuration of (−) α-HBCD was found to be (1 R,2 R,5 S,6 R,9 R,10 S), while the one of (+) β-HBCD is assigned to (1 S,2 S,5 S,6 R,9 S,10 R), whereas the one of (−) γ-HBCD corresponds to (1 S,2 S,5 S,6 R,9 R,10 S). The given structural information allows the unambiguous identification of the six most important HBCD stereoisomers, which typically account for more than 95% of technical HBCDs. In addition, we compared the solid-state conformations of racemic and enantiomerically pure α-, β-, and γ-HBCDs. In all cases, vicinal dibromides adopted a synclinal (sc) conformation with torsion angles of 69 ± 6°. A unique structural motive was common to all examined HBCD solid-state conformations. 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Considering all elements of symmetry, 16 different stereoisomers including six pairs of enantiomers as well as 4 meso forms are possible theoretically. Recently, we isolated 8 of the 16 possible stereoisomers from a technical HBCD mixture and assigned their relative configurations. Herein, we report on the isolation of 6 enantiomerically pure α-, β-, and γ-HBCDs, obtained from preparative chiral-phase liquid chromatography, and we present their absolute configurations, which were determined from X-ray diffraction analysis. The absolute configuration of (−) α-HBCD was found to be (1 R,2 R,5 S,6 R,9 R,10 S), while the one of (+) β-HBCD is assigned to (1 S,2 S,5 S,6 R,9 S,10 R), whereas the one of (−) γ-HBCD corresponds to (1 S,2 S,5 S,6 R,9 R,10 S). The given structural information allows the unambiguous identification of the six most important HBCD stereoisomers, which typically account for more than 95% of technical HBCDs. In addition, we compared the solid-state conformations of racemic and enantiomerically pure α-, β-, and γ-HBCDs. In all cases, vicinal dibromides adopted a synclinal (sc) conformation with torsion angles of 69 ± 6°. A unique structural motive was common to all examined HBCD solid-state conformations. 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Bernd</au><au>Mattrel, Peter</au><au>Haag, Regula</au><au>Gerecke, Andreas C.</au><au>Kohler, Martin</au><au>Schmid, Peter</au><au>Zennegg, Markus</au><au>Wolfensberger, Max</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Solid-state conformations and absolute configurations of (+) and (−) α-, β-, and γ-hexabromocyclododecanes (HBCDs)</atitle><jtitle>Chemosphere (Oxford)</jtitle><addtitle>Chemosphere</addtitle><date>2007-06-01</date><risdate>2007</risdate><volume>68</volume><issue>5</issue><spage>940</spage><epage>950</epage><pages>940-950</pages><issn>0045-6535</issn><eissn>1879-1298</eissn><coden>CMSHAF</coden><abstract>Hexabromocyclododecanes (HBCDs) are high production volume chemicals used as flame retardants for plastics and textiles. They are currently produced in quantities exceeding 20 000 t/y. Despite this fact, the correct stereochemistry of most HBCDs is still not known. Six stereocenters are formed during bromination of cyclododecatrienes, resulting in mixtures of different stereoisomers. Considering all elements of symmetry, 16 different stereoisomers including six pairs of enantiomers as well as 4 meso forms are possible theoretically. Recently, we isolated 8 of the 16 possible stereoisomers from a technical HBCD mixture and assigned their relative configurations. Herein, we report on the isolation of 6 enantiomerically pure α-, β-, and γ-HBCDs, obtained from preparative chiral-phase liquid chromatography, and we present their absolute configurations, which were determined from X-ray diffraction analysis. The absolute configuration of (−) α-HBCD was found to be (1 R,2 R,5 S,6 R,9 R,10 S), while the one of (+) β-HBCD is assigned to (1 S,2 S,5 S,6 R,9 S,10 R), whereas the one of (−) γ-HBCD corresponds to (1 S,2 S,5 S,6 R,9 R,10 S). The given structural information allows the unambiguous identification of the six most important HBCD stereoisomers, which typically account for more than 95% of technical HBCDs. In addition, we compared the solid-state conformations of racemic and enantiomerically pure α-, β-, and γ-HBCDs. In all cases, vicinal dibromides adopted a synclinal (sc) conformation with torsion angles of 69 ± 6°. A unique structural motive was common to all examined HBCD solid-state conformations. This conserved structure was described as an extended triple turn consisting of an arrangement of three pairs of synclinal and two antiperiplanar torsion angles.</abstract><cop>Oxford</cop><pub>Elsevier Ltd</pub><pmid>17346772</pmid><doi>10.1016/j.chemosphere.2007.01.032</doi><tpages>11</tpages></addata></record>
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subjects	Aliphatic, non-condensed and condensed benzenic, and alicyclic compounds Applied sciences Brominated flame retardants Chromatography, Liquid Condensed matter: structure, mechanical and thermal properties Crystallography, X-Ray Exact sciences and technology Extended triple turn motive Flame Retardants Global environmental pollution HBCD crystal structures Hydrocarbons, Brominated - chemistry Mass Spectrometry Models, Molecular Molecular Conformation Molecular Structure Organic compounds Physics Pollution Relative and absolute configurations Resolution of enantiomers Stereoisomerism Structure of solids and liquids crystallography Structure of specific crystalline solids
title	Solid-state conformations and absolute configurations of (+) and (−) α-, β-, and γ-hexabromocyclododecanes (HBCDs)
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