TY - JOUR
T1 - α,2-, α,3-, and α,4-dehydrophenol radical anions
T2 - Formation, reactivity, and energetics leading to the heats of formation of α,2-, α,3-, and α,4-oxocyclohexadienylidene
AU - Reed, Dana R.
AU - Hare, Michael C.
AU - Fattahi, Alireza
AU - Chung, Gyusung
AU - Gordon, Mark S.
AU - Kass, Steven R.
PY - 2003/4/16
Y1 - 2003/4/16
N2 - We have regiospecifically generated the α2-, α3-, and α4-dehydrophenoxide anions by collisional activation of o-, m-, and p-nitrobenzoate. The α,2 and α,4 isomers also were synthesized by reacting o-benzyne radical anion with carbon dioxide and electron ionization of p-diazophenol. All three dehydrophenol radical anions were differentiated from each other and identified by probing their chemical reactivity with several reagents. Each isomer was converted to phenoxide and its corresponding quinone as well. Thermochemical measurements were carried out on all three radical anions and their hydrogen-atom affinities, proton affinities, and electron binding energies are reported. These measured quantities are combined in thermodynamic cycles to derive the heats of formation of each of the radical anions and their corresponding carbenes (i.e., α2-, α,3-, and α,4-dehydrophenol). These results are compared to MCQDPT2, G3, G2+(MP2), and B3LYP calculations and experimental data for appropriate reference compounds.
AB - We have regiospecifically generated the α2-, α3-, and α4-dehydrophenoxide anions by collisional activation of o-, m-, and p-nitrobenzoate. The α,2 and α,4 isomers also were synthesized by reacting o-benzyne radical anion with carbon dioxide and electron ionization of p-diazophenol. All three dehydrophenol radical anions were differentiated from each other and identified by probing their chemical reactivity with several reagents. Each isomer was converted to phenoxide and its corresponding quinone as well. Thermochemical measurements were carried out on all three radical anions and their hydrogen-atom affinities, proton affinities, and electron binding energies are reported. These measured quantities are combined in thermodynamic cycles to derive the heats of formation of each of the radical anions and their corresponding carbenes (i.e., α2-, α,3-, and α,4-dehydrophenol). These results are compared to MCQDPT2, G3, G2+(MP2), and B3LYP calculations and experimental data for appropriate reference compounds.
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U2 - 10.1021/ja029571c
DO - 10.1021/ja029571c
M3 - Article
C2 - 12683837
AN - SCOPUS:0037448907
SN - 0002-7863
VL - 125
SP - 4643
EP - 4651
JO - Journal of the American Chemical Society
JF - Journal of the American Chemical Society
IS - 15
ER -