K. Matsumoto, T. Oka, T. Nohira
Jan 18, 2013
Citations
1
Influential Citations
27
Citations
Journal
Inorganic chemistry
Abstract
The polymorphic behavior of Na, K, and Cs salts of the bis(fluorosulfonyl)amide anion N(SO(2)F)(2)(-) has been investigated by means of differential scanning calorimetry (DSC), single-crystal and powder X-ray diffraction, and Raman spectroscopy. All of the polymorphs observed in the present work (three for Na[N(SO(2)F)(2)], two for K[N(SO(2)F)(2)], and two for Cs[N(SO(2)F)(2)]) are stable enough for analyses at room temperature. With increasing temperature, form II of Na[N(SO(2)F)(2)] undergoes a solid-solid phase transition to form I, whereas another form (form III) crystallizes from the melt upon cooling. The anions in forms I and II of Na[N(SO(2)F)(2)] have trans and cis conformations, respectively, at 113 K, while cis-trans disorder is observed for the anion in form I at 298 K. Form I of K[N(SO(2)F)(2)], with a melting point of 375 K, is the stable form at room temperature, whereas solidification from the molten state during DSC gives rise to form II with a melting point of 336 K. Both forms I and II of K[N(SO(2)F)(2)] have anions in the cis conformation. The difference between the two potassium polymorphs arises from their crystal packing modes. In the case of Cs[N(SO(2)F)(2)], form I melts at 387 K, whereas form II undergoes a solid-solid transition to form I at 330 K. The anion of form I in Cs[N(SO(2)F)(2)] has an oxygen/fluorine disorder that exhibits an oxygen/fluorine eclipsed conformation, even at 113 K. The powder X-ray diffraction pattern of form II matches that of the previously known Cs[N(SO(2)F)(2)] structure of the trans conformer. Vibrational frequencies observed with Raman spectroscopy do not necessarily show the same trend as those calculated for the energy-minimized cis or trans conformers in the gas phase due to packing effects.