Wideline NMR studies of ammonia intercalation complexes. II. TaS2(ND3) and TiS2 (ND3)

Abstract

The ²D NMR of ND₃ molecules in the intercalation complexes TaS₂(ND₃) and TiS₂(ND₃) has been studied at temperatures from 5–300 K by wideline techniques. The magnitude and temperature dependence of the observed electric quadrupolar coupling constant (e²qQ/h)_eff provides information about the configuration of the intercalated ND₃ molecules and their dynamics. The similarity of (e²qQ/h)_eff to previously reported values for solid ND₃ suggests that intercalation entails only small changes in molecular geometry or electronic configuration. The molecules exhibit several types of motion, including spinning about their threefold (C₃) symmetry axis and a complex reorientation of that axis. The rates of these motions are reduced as the temperature is lowered, with reorientation falling to ∼10⁶ s⁻¹ near 140 K. C₃ spinning persists at rates greater than 10⁶ s⁻¹ even at temperatures of 5 K. The quadrupole interaction does not vanish at high temperatures, ∼300 K, showing that reorientation of the C₃ axis is not isotropic and the form of motion is deduced from the high temperature value of the coupling constant. A central component of the spectrum is observed at low temperatures and attributed to ND₃ molecules residing near molecular vacancies in the layers. The present results are compared in detail with ¹H observations in the ND₃ analogues.