β-Phenyl Quenching of Triplet Excited Ketones: How Critical Is the Geometry for Deactivation?

The phenomenon of β-phenyl quenching has been examined by laser-flash photolysis in a series of α- and/or β-substituted ketones 4−8 with similar excited-state characteristics. It is found that α-substitution markedly increases the triplet lifetimes in contrast to β-substitution. The force field calc...

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Veröffentlicht in:	Journal of organic chemistry 2006-06, Vol.71 (12), p.4453-4459
Hauptverfasser:	Samanta, Subhas, Mishra, Brijesh Kumar, Pace, Tamara C. S, Sathyamurthy, Narayanasami, Bohne, Cornelia, Moorthy, Jarugu Narasimha
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Sprache:	eng
Schlagworte:	Chemistry Exact sciences and technology Organic chemistry
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container_title	Journal of organic chemistry
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creator	Samanta, Subhas Mishra, Brijesh Kumar Pace, Tamara C. S Sathyamurthy, Narayanasami Bohne, Cornelia Moorthy, Jarugu Narasimha
description	The phenomenon of β-phenyl quenching has been examined by laser-flash photolysis in a series of α- and/or β-substituted ketones 4−8 with similar excited-state characteristics. It is found that α-substitution markedly increases the triplet lifetimes in contrast to β-substitution. The force field calculations for the various staggered conformers of ketones 4−6 and 8-syn show that the lowest-energy conformation in all these ketones has the carbonyl group and the β-phenyl ring gauche to each other. Despite this geometrical requirement, the longer lifetimes observed are interpreted as being due to the influence of the α-substituent on the rotational freedom of the planar benzoyl moiety as a whole. The experimental results are suggestive of the attainment of what appears to be a critical geometry for quenching. This scenario may be likened to Norrish type II reactions, where the α-substituent has long been known to suppress the elimination pathway and promote Yang cyclization. In addition, we have shown that the diastereomers of α,β-disubstituted ketones exhibit distinct lifetimes.
doi_str_mv	10.1021/jo060200e
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The experimental results are suggestive of the attainment of what appears to be a critical geometry for quenching. This scenario may be likened to Norrish type II reactions, where the α-substituent has long been known to suppress the elimination pathway and promote Yang cyclization. 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Despite this geometrical requirement, the longer lifetimes observed are interpreted as being due to the influence of the α-substituent on the rotational freedom of the planar benzoyl moiety as a whole. The experimental results are suggestive of the attainment of what appears to be a critical geometry for quenching. This scenario may be likened to Norrish type II reactions, where the α-substituent has long been known to suppress the elimination pathway and promote Yang cyclization. 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The experimental results are suggestive of the attainment of what appears to be a critical geometry for quenching. This scenario may be likened to Norrish type II reactions, where the α-substituent has long been known to suppress the elimination pathway and promote Yang cyclization. In addition, we have shown that the diastereomers of α,β-disubstituted ketones exhibit distinct lifetimes.</abstract><cop>Washington, DC</cop><pub>American Chemical Society</pub><pmid>16749774</pmid><doi>10.1021/jo060200e</doi><tpages>7</tpages></addata></record>
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title	β-Phenyl Quenching of Triplet Excited Ketones: How Critical Is the Geometry for Deactivation?
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