Thermal- and electron impact-induced decarbonylation of tropones: A comparison of neutral and radical-cationic pericyclic reaction mechanisms

Gerhard Holzmann; Gernot Frenking; Bernd Steiner

doi:10.1039/P29840001943

Thermal- and electron impact-induced decarbonylation of tropones: A comparison of neutral and radical-cationic pericyclic reaction mechanisms

Gerhard Holzmann, Gernot Frenking, Bernd Steiner

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10 Scopus citations

Abstract

The neutral and radical-cationic decarbonylation of tropone and benzoannelated tropones is experimentally investigated by pyrolysis and electron-impact mass spectroscopy, respectively. The reaction mechanisms are discussed by means of MNDO calculations. From these results it is deduced that the thermal reaction proceeds in two steps, the first one being an electrocyclic ring closure while the second, rate-determining step, consists of the cheletropic CO extrusion. The cationic reaction also starts with the (rate-determining) ring closure. However, the norcaradienone ion opens to a benzoyl-type ion, which is the actual precursor of the CO loss. The effect of the benzoannelated substitution is different for the thermal and cationic reaction profile.

Original language	English
Pages (from-to)	1943-1948
Number of pages	6
Journal	Journal of the Chemical Society, Perkin Transactions 2
Issue number	12
DOIs	https://doi.org/10.1039/P29840001943
State	Published - 1984
Externally published	Yes

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title = "Thermal- and electron impact-induced decarbonylation of tropones: A comparison of neutral and radical-cationic pericyclic reaction mechanisms",

abstract = "The neutral and radical-cationic decarbonylation of tropone and benzoannelated tropones is experimentally investigated by pyrolysis and electron-impact mass spectroscopy, respectively. The reaction mechanisms are discussed by means of MNDO calculations. From these results it is deduced that the thermal reaction proceeds in two steps, the first one being an electrocyclic ring closure while the second, rate-determining step, consists of the cheletropic CO extrusion. The cationic reaction also starts with the (rate-determining) ring closure. However, the norcaradienone ion opens to a benzoyl-type ion, which is the actual precursor of the CO loss. The effect of the benzoannelated substitution is different for the thermal and cationic reaction profile.",

author = "Gerhard Holzmann and Gernot Frenking and Bernd Steiner",

year = "1984",

doi = "10.1039/P29840001943",

language = "英语",

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journal = "Journal of the Chemical Society, Perkin Transactions 2",

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T1 - Thermal- and electron impact-induced decarbonylation of tropones

T2 - A comparison of neutral and radical-cationic pericyclic reaction mechanisms

AU - Holzmann, Gerhard

AU - Frenking, Gernot

AU - Steiner, Bernd

PY - 1984

Y1 - 1984

N2 - The neutral and radical-cationic decarbonylation of tropone and benzoannelated tropones is experimentally investigated by pyrolysis and electron-impact mass spectroscopy, respectively. The reaction mechanisms are discussed by means of MNDO calculations. From these results it is deduced that the thermal reaction proceeds in two steps, the first one being an electrocyclic ring closure while the second, rate-determining step, consists of the cheletropic CO extrusion. The cationic reaction also starts with the (rate-determining) ring closure. However, the norcaradienone ion opens to a benzoyl-type ion, which is the actual precursor of the CO loss. The effect of the benzoannelated substitution is different for the thermal and cationic reaction profile.

AB - The neutral and radical-cationic decarbonylation of tropone and benzoannelated tropones is experimentally investigated by pyrolysis and electron-impact mass spectroscopy, respectively. The reaction mechanisms are discussed by means of MNDO calculations. From these results it is deduced that the thermal reaction proceeds in two steps, the first one being an electrocyclic ring closure while the second, rate-determining step, consists of the cheletropic CO extrusion. The cationic reaction also starts with the (rate-determining) ring closure. However, the norcaradienone ion opens to a benzoyl-type ion, which is the actual precursor of the CO loss. The effect of the benzoannelated substitution is different for the thermal and cationic reaction profile.

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DO - 10.1039/P29840001943

M3 - 文章

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SN - 1472-779X

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JO - Journal of the Chemical Society, Perkin Transactions 2

JF - Journal of the Chemical Society, Perkin Transactions 2

IS - 12

ER -

Thermal- and electron impact-induced decarbonylation of tropones: A comparison of neutral and radical-cationic pericyclic reaction mechanisms

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