Title of article
Generation of the elusive methyl dioxophosphorane molecule, CH3P(O)2, by delayed dissociation of selected precursors
Author/Authors
Heydorn، نويسنده , , Lisa N. and Burgers، نويسنده , , Peter C. and Ruttink، نويسنده , , Paul J.A. and Terlouw، نويسنده , , Johan K.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2003
Pages
5
From page
584
To page
588
Abstract
A recent flame-sampling laser-ionization study [Chem. Phys. Lett. 275 (1997) 278] reported that combustion of dimethyl methyl phosphonate generates the elusive CH3P(O)2 molecule and that it has an ionization energy (IE) of 9.24±0.01 eV. Ab initio calculations (CBS-QB3 level of theory) indicate that this IE is that of the ‘enol’ tautomer CH2P(O)OH, while that of CH3P(O)2 is much higher, 11.66 eV. We propose that in the above experiments, a trace amount of the ‘enol’ is co-generated with the ‘keto’ isomer CH3P(O)2. Mass spectrometric experiments involving Neutralization–Reionization (NR) and Collision-Induced Dissociative Ionization (CIDI) show that CH2P(O)OH and CH3P(O)2 are both stable neutral species in the dilute gas-phase.
Journal title
Chemical Physics Letters
Serial Year
2003
Journal title
Chemical Physics Letters
Record number
1782730
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