Collisional stabilization and thermal dissociation of highly vibrationally excited C 9H 12 + ions from the reaction O 2 + + C 9H 12 → O 2 + C 9H 12 +

Abel I. Fernandez, A. A. Viggiano, Thomas M. Miller, S. Williams, I. Dotan, J. V. Seeley, J. Troe

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ملخص

Highly vibrationally excited n-propylbenzene cations, C 9H 12 +*, were prepared by the charge transfer reaction O 2 + + C 9H 12 → O 2 + C 9H 12 +* in a turbulent ion flow tube. The subsequent competition between fragmentation of C 9H 12 +* into C 7H 7 + + C 2H 5 and stabilization in collisions with N 2 was studied at temperatures in the range 423-603 K and at pressures between 15 and 200 Torr. Most of the C 7H 7 + is the aromatic benzylium isomer, while the fraction of the minor species, seven-membered-ring tropylium, increases with T, from 5 to 20%. Minor fragments are C 6H 6 +, C 7H 8 +, and C 8H 9 +, Energy-transfer step sizes (ΔE) for collisional deactivation are obtained by combining the stabilization versus fragmentation ratios measured as a function of pressure in this study with fragmentation rates from the literature. The values are compared with related information for other excited molecular ions and are similar to those of their neutral analogues. At the highest temperatures, C 9H 12 + was also observed to pyrolyze after collisional stabilization. Employing unimolecular rate theory, the derived rate constants for thermal dissociation of C 9H 12 + are related to values derived from the specific rate constants k(E,J) for fragmentation. Good agreement is found between measured and predicted pyrolysis rate constants. This allows us to confirm the dissociation energy of C 9H 12 + into C 7H 7 + (benzylium) and C 2H 5 as 166.9 (±2.2) kJ mol -1 (at 0 K).

اللغة الأصليةالإنجليزيّة
الصفحات (من إلى)9652-9659
عدد الصفحات8
دوريةJournal of Physical Chemistry A
مستوى الصوت108
رقم الإصدار45
المعرِّفات الرقمية للأشياء
حالة النشرنُشِر - 11 نوفمبر 2004

بصمة

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