The aromatic anions phospholide and arsolide have been generated in th
e gas phase at room temperature via the reaction of hydroxide ion with
1-tert-butylphosphole and 1-tert-butylarsole, respectively. The acid-
base properties and reactivity of the ions were investigated with a fl
owing afterglow-triple quadrupole instrument. The proton affinities of
both phospholide and arsolide have been determined from bracketing ex
periments to be 338 +/- 3 kcal/mol. Exchange of two hydrogens for deut
erium occurs in reactions of phospholide anion with FCH2COOD. In contr
ast, no H/D exchange occurs in reactions of arsolide ion with FCH2COOD
, nor does it occur in reactions between pyrrolide anion and CF3CH2OD.
These results are interpreted in terms of kinetic protonation of the
heteroatom in all three anions, with exchange in the phospholide anion
occurring by slow, reversible [1,5]-hydrogen shifts. All three hetero
cyclopentadienides are found to be relatively unreactive under flowing
-afterglow conditions, exhibiting only slow clustering or addition rea
ctions with polar, electrophilic reagents and electron transfer to NO2
. Ab initio molecular orbital calculations performed on the isomeric C
(4)H(5)X (X = N, P) species indicate that 2H-phosphole and 3H-phosphol
e are 7.8 and 4.0 kcal/mol more stable than 1H-phosphole, respectively
, while W-pyrrole and 3H-pyrrole are 11.5 and 13.0 kcal/mol less stabl
e than LH-pyrrole. Calculations on the corresponding C(4)H(4)X(-) (X =
N, P) conjugate base anions predict proton affinities at the 2-positi
on of phospholide and at the nitrogen atom of pyrrolide of 341.4 and 3
58.6 kcal/mol, respectively, in good agreement with the experimental d
ata. The gas-phase acidities and relative stabilities of the nitrogen,
phosphorus, and arsenic heteroles are discussed in terms of the calcu
lated electronic and geometric structures.