Gas-phase ion–molecule reactions of small nitroalkanes and their deprotonated anions

Eur. J. Mass Spectrom. 10, 225–231 (2004)
DOI: 10.1255/ejms.628

Gas-phase ion–molecule reactions of small nitroalkanes and their deprotonated anions

Shuji Kato,^* Kathleen E. Carrigan, Charles H. DePuy^* and Veronica M. Bierbaum^*
Department of Chemistry and Biochemistry, University of Colorado, Boulder, CO 80309- 0215, USA

ABSTRACT:

Gas-phase reactions of nitromethane (1), nitroethane (2), 2-nitropropane (3), 2-methyl-2-nitropropane (4) and nitrocyclopropane (5) were studied at 300 K using the flowing afterglow technique. These nitroalkanes react with gas-phase bases HO^–, CH₃O^– and HOO^– very rapidly with rate coefficients of (2.5–4.3) × 10^–9 cm³ s^–1 and reaction efficiencies of 60–100%, for example, k = 3.2 × 10^–9 cm³ s^–1 (86%) for 5 reacting with hydroperoxide anion. Proton transfer (PT) is the only reaction observed for 1 while elimination (E2) is the exclusive pathway for 4 yielding isobutene and NO₂^–. Both PT and E2 reactions are observed for 2, 3 and 5, the former being the major pathway. Deprotonated anions of 1, 2, 3 and 5 were subjected to reactivity studies with CH₃I, CO₂, CS₂ and SO₂. Nucleophilic substitution (S_N2) reaction occurs with CH₃I while characteristic products CS₂O^– and SO₃^– are formed from CS₂ and SO₂, respectively, along with competing adduct formation. The SN₂ rate is greater, whereas the reactivities with the triatomic reagents are smaller for deprotonated nitrocyclopropane than for the other acyclic anions. These observations strongly suggest that the reactions of nitroalkane [M – H]^– anions occur through initial attack from the terminal oxygen; the nitrocyclopropane carbanion is more strained and, thus, less stabilized by resonance [R₂C^– – NO2 ↔ R₂=NO₂^–] resulting in the greater basicity/nucleophilicy and the less negative charge on the oxygen site.

Keywords: flowing afterglow, ion–molecule reactions, nitroalkanes proton transfer, elimination reactions, ion-enhanced combustion, nucleophilic substitution, gas-phase kinetics, negative ions, chemical ionization applications

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