Do TFSA Anions Slither? Pressure Exposes the Role of TFSA Conformational Exchange in Self-Diffusion

Multinuclear (H-1, H-2, and F-19) magnetic resonance spectroscopy techniques as functions Of temperature and pressure were applied to the study of selectively deuterated 1-ethyl-3-methylimidazolium bis(trifluoromethylsulfonyl)amide) (EMIM TFSA) ionic liquid isotopologues and related ionic liquids. For EMIM TFSA temperature-dependent H-2 T-1 data indicate stronger electric field gradients in the alkyl Chain region compared to the imidazolium ring. Most significantly, the pressure dependences of the EMIM and TFSA Self-diffusion coefficients revealed that the displacements of the cations and anions are independent, with diffusion of the TFSA anions being slowed much more by increasing pressure than for the EMIM cations, as shown by their respective activation volumes (28.8 +/- 2.5 cm(3)/mol for TFSA vs 14.6 +/- 1.3 cm(3)/mol for EMIM). Increasing pressure may tower the mobility of the TFSA anion by hindering its interconversion between trans and is conformers, A process that is coupled to diffusion according to published molecular dynamics simulations. Measured activation, volumes (Delta V double dagger) for ion self-diffusion in EMIM bis(fluoromethylsulfonyl)amide and EMIM tetrafluoroborate Support this hypothesis, In addition; H-2 T-1 data suggest increased ordering with increasing pressure, with two T-1 regimes observed for the MD3 and D-2 isotopologues between 0.1-100 and 100-250 MPa, respectively. The activation volumes for T-1 were 21 and 25 cm(3)/mol (0-100 MPa) and 11 and 12 cm(3)/mol (100-250 MPa) for the MD3 and D-2 isotopolopes, respectively.