Computational Assessment of the Electronic Structures of Cyclohexa-1,2,4-triene, 1-Oxacyclohexa-2,3,5-triene (3δ<sup>2</sup>-Pyran), Their Benzo Derivatives, and Cyclohexa-1,2-diene. An Experimental Approach to 3δ<sup>2</sup>-Pyran

Engels, Bernd; Schöneboom, Jan; Münster, Arno F.; Groetsch, Stefan; Christl, Manfred

doi:10.1021/ja011227c

Cited by 65 publications

(62 citation statements)

References 56 publications

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“…[47] Interestingly though, like the metallabenzynes, isometallabenzenes have proven to be isolable compounds. Reaction of 38 with phenylacetylene and HBF 4 ·OEt 2 produces the alkenyl-alkynyl-carbyne complex 39 (Scheme 11), which decomposes in solution at temperatures above À30 8C.…”

Section: Isoosmabenzenementioning

confidence: 99%

Recent Advances in Metallabenzene Chemistry

2006

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Research into aromatic metallacycles, though discussed in the literature over the last quarter century, has undergone a major expansion since 2000. A wide variety of new metallabenzenes, encompassing new synthetic methods and new metal centers, is now available. New aromatic metallacycle topologies (iridanaphthalene, osmabenzynes) have been isolated and characterized. The first metallabenzene valence isomers (iridabenzvalenes, rhodabenzvalenes) and constitutional isomers (isoosmabenzenes) are now known. This review discusses the synthesis, chemistry, and physical properties of these intriguing aromatic compounds.

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Section: Isoosmabenzenementioning

confidence: 99%

Recent Advances in Metallabenzene Chemistry

2006

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“…14-18 kcal mol À1 (2). [1,4,5] Wegen der bekannten Tendenz der Gruppe-4-Metallocene, gewinkelte Cumulene 3 [6] und sogar nichtlineare Alkine 4 [7] in metallacyclischen Ringstrukturen erheblich zu stabilisieren, erschien der Versuch naheliegend, auch die entsprechenden metallacyclischen Fünfring-Allene 5 zu synthetisieren (Schema 1 2.340 (3) ). [11] Die C4-C3-Bindung ist kurz (1.276 (4) ).…”

Section: Professor Emanuel Vogel Zum 80 Geburtstag Gewidmetunclassified

Metallacyclische Fünfring‐Allenoide: Synthese und Struktur stabiler stark verzerrter cyclischer Allen‐Derivate

et al. 2008

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Metallocen wirkt stabilisierend: Die Umsetzung von Bis(alkinyl)HfCp2‐Komplexen mit HB(C6F5)2 liefert nach 1,1‐Hydroborierung und anschließender Kohlenstoff‐Kohlenstoff‐Kupplung zwei stabile, isolierbare Metallacyclopenta‐1,2‐diene (siehe Struktur des Trimethylsilylderivats; Hf braun, B rot, Si blau, F grün, C schwarz). Röntgenbeugung und eine quantenchemische Analyse beschreiben die elektronische Struktur dieser Verbindungen zwischen einem gewinkelten cyclischen Allen und einem koordinierten Butenin.

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“…[1] The results of carefully designed experiments led to the conclusion that (P)-and (M)-2 emerge from 1 in a ratio of about 70:30 and, without enantiomerisation, enantiospecifically add onto 3. This was unexpected, since the barrier to enantiomerisation of 2 had been estimated by quantum chemical methods to be only 11 kcal mol À1 , [2,3] which is why the reaction of 2 with 3 must be very fast.…”

Section: Introductionmentioning

confidence: 97%

1‐Phenyl‐1,2‐cyclohexadiene: Astoundingly High Enantioselectivities on Generation in a Doering–Moore–Skattebøl Reaction and Interception by Activated Olefins

Christl

Fischer

Arnone

et al. 2009

Chemistry A European J

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The resolution of (1alpha,5alpha,6alpha)-6-bromo-6-fluoro-1-phenylbicyclo[3.1.0]hexane (rac-5) provided the enantiomerically pure precursors (-)-5 and (+)-5 of 1-phenyl-1,2-cyclohexadiene. On treatment of (-)-5 with methyllithium in the presence of 2,5-dimethylfuran, the pure (-)-enantiomer of the [4+2] cycloadduct of 2,5-dimethylfuran onto 1-phenyl-1,2-cyclohexadiene was obtained exclusively. From this result, it is concluded that pure (M)-1-phenyl-1,2-cyclohexadiene ((M)-7) emerged from (-)-5 and was enantiospecifically intercepted to give the product. In the case of indene as trap for (M)-7, the (-)- and the (+)-enantiomer of the [2+2] cycloadduct were formed in the ratio of 95:5. Highly surprising, remarkable enantioselectivities were also observed, when (M)-7 was trapped with styrene to furnish two diastereomeric [2+2] cycloadducts. Hence, the achiral conformation of the diradical conceivable as intermediate cannot play a decisive part. The enantioselective generation of (M)- and (P)-7 by the beta-elimination route was tested as well. Accordingly, 1-bromo-2-phenylcyclohexene was exposed to the potassium salt of (-)-menthol in the presence of 2,5-dimethylfuran, and the enantiomeric [4+2] cycloadducts of the latter onto (M)- and (P)-7 were produced in the ratio of 55:45.

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Computational Assessment of the Electronic Structures of Cyclohexa-1,2,4-triene, 1-Oxacyclohexa-2,3,5-triene (3δ²-Pyran), Their Benzo Derivatives, and Cyclohexa-1,2-diene. An Experimental Approach to 3δ²-Pyran

Cited by 65 publications

References 56 publications

Recent Advances in Metallabenzene Chemistry

Recent Advances in Metallabenzene Chemistry

Metallacyclische Fünfring‐Allenoide: Synthese und Struktur stabiler stark verzerrter cyclischer Allen‐Derivate

1‐Phenyl‐1,2‐cyclohexadiene: Astoundingly High Enantioselectivities on Generation in a Doering–Moore–Skattebøl Reaction and Interception by Activated Olefins

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Computational Assessment of the Electronic Structures of Cyclohexa-1,2,4-triene, 1-Oxacyclohexa-2,3,5-triene (3δ2-Pyran), Their Benzo Derivatives, and Cyclohexa-1,2-diene. An Experimental Approach to 3δ2-Pyran

Cited by 65 publications

References 56 publications

Recent Advances in Metallabenzene Chemistry

Recent Advances in Metallabenzene Chemistry

Metallacyclische Fünfring‐Allenoide: Synthese und Struktur stabiler stark verzerrter cyclischer Allen‐Derivate

1‐Phenyl‐1,2‐cyclohexadiene: Astoundingly High Enantioselectivities on Generation in a Doering–Moore–Skattebøl Reaction and Interception by Activated Olefins

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Computational Assessment of the Electronic Structures of Cyclohexa-1,2,4-triene, 1-Oxacyclohexa-2,3,5-triene (3δ²-Pyran), Their Benzo Derivatives, and Cyclohexa-1,2-diene. An Experimental Approach to 3δ²-Pyran