Journal of the American Chemical Society, Vol.119, No.17, 3918-3928, 1997
Tetrafluorophosphate Anion
The elusive POF4- anion has been characterized for the first time. It is formed from N(CH3)(4)F and POF3 in CHF3 solution at -140 degrees C and can be observed at this temperature by F-19 and P-31 NMR spectroscopy. Between -140 and -100 degrees C it reacts with POS forming the OF2P-O-PF5- anion, which, at higher temperatures, reacts with F- anions to give PO2F2- and PF6-. This reaction sequence provides a low activation energy barrier pathway for the highly exothermic dismutation of pseudo-trigonal-bipyramidal POF4- to tetrahedral PO2F2- and octahedral PF6- and explains the previous failures to isolate POF4- salts. In addition to POF4-, OF2POPF5-, and PO2F2-, the protonated form of OF2POPF5-, i.e., HOF2POPF5, was also identified as a byproduct by NMR spectroscopy. The structure, vibrational spectra, force field, NMR parameters, and dismutation energy of POF4- were calculated by nb initio electronic structure methods using, where required, the closely related and well-known PF4- ion and POF3, PF3, SOF4, and SF4 molecules for the determination of scaling factors. Although the structures and dismutation energies of isoelectronic POF4- and SOF4 are very similar, their dismutation behavior is strikingly different. While POF4- dismutates rapidly at low temperatures, SOF4 is kinetically stable toward dismutation to SO2F2 and SF6. This fact is attributed to the lack of a low activation energy barrier pathway for SOF(4)7. Furthermore, the dismutation energy calculations for POF4-, SOF4, and ClOF3 revealed very large errors in the previously published thermodynamic data for the heats of formations of SO2F2 and SOF4 and the dismutation reaction energy of POF4-. Energy barriers and the C-4v transition states for the Berry-style pseudorotational exchange of equatorial and axial fluorines in POF4-, SOF4, PF4-, and SF4 were also calculated and can account for the observation that on the NMR time scale the exchange in PF4- and SF4 can be frozen out at about -40 degrees C, while in POF4- and SOF4 it is still rapid at -140 and -150 degrees C, respectively.
Keywords:NMR CHEMICAL-SHIFTS;BASIS-SETS;MAGNETIC-SUSCEPTIBILITIES;MOLECULAR CALCULATIONS;LOCALIZED QUANTITIES;VIBRATIONAL-SPECTRA;PERTURBATION-THEORY;WAVE-FUNCTIONS;DENSITY;FLUORIDE