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2001 (1)
1Author    Jürgen Senker3, Jens LüdeckebRequires cookie*
 Title    Structure Determination for the Crystalline Phase of Triphenyl Phosphite by Means of Multi-Dimensional Solid-State NMR and X-Ray Diffraction  
 Abstract    The crystalline phase of triphenyl phosphite P(OCöH5)3 was investigated by means of 11P solid-state NMR and X-ray diffraction in a temperature range between 170 K and its melting point (Tm = 293 K). ID MAS NMR spectra exhibit one sharp central resonance indicating only one crystallographically unique molecule in the unit cell. A theoretical analysis concerning the shape of 2D exchange spectra for 1 = 1 /2 nuclei is presented. It is shown that if the exchange is caused by radio-frequency driven spin-diffusion, this technique allows to discriminate rota­ tional symmetry elements in crystalline solids. Used on crystalline triphenyl phosphite, 3-fold symmetry could be revealed clearly. Structure determination based on X-ray single crystal diffraction data collected at 191 K shows that triphenyl phosphite crystallises in hexagonal metric with space group R3 (w R i = 8.3%, Z = 18) and one molecule in the asymmetric unit. This result is in excellent agreement with the NMR spectroscopic data. The lattice parameters at 200 K were determined to a = 37.887(1) and c = 5.7567(2) Ä (V = 7156(1) A3) by refining an X-ray powder-diffraction pattern. The structure of triphenylphosphite can be described as a close rod packing. The rods are formed by ecliptically arranged triphenylphosphite molecules. Due to the 3-fold rotoinversion axis the orientation of molecules in neighboured rods is anti­ parallel. 
  Reference    Z. Naturforsch. 56b, 1089—1099 (2001); received July 18 2001 
  Published    2001 
  Keywords    Triphenyl Phosphite, Structure Determination, Solid-State NMR 
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 TEI-XML for    default:Reihe_B/56/ZNB-2001-56b-1089.pdf 
 Identifier    ZNB-2001-56b-1089 
 Volume    56