Nonapentafulvalen

Escher, A.; Neuenschwander, Markus

doi:10.1002/hlca.19870700106

Cited by 20 publications

(22 citation statements)

References 16 publications

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“…Like 165, 11 is thermally unstable undergoing facile electrocyclic ring closure to 166 at room temperature (Scheme 36). [220] The NMR spectroscopic data confirm 11 as olefinic with strongly alternating bond lengths and a nine-membered ring that is bent markedly from planarity. Furthermore, comparison with data from various pentafulvenes and nonafulvenes demonstrates that the large ring of 11 acts as a weak electron donor to the five-membered ring, viz.…”

Section: Pentanonafulvalenesmentioning

confidence: 71%

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The Fulvalenes

Halton

2005

Eur J Org Chem

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The fulvalenes are the class of hydrocarbons obtained by formally cross‐conjugating two rings through a common exocyclic double bond. Although the first report of such a compound dates to 1915, study of the series began in earnest only in the 1950s, and even today many of the unsubstituted parent hydrocarbons remain unknown. The following report, the first to specifically address this class of molecules, summarises the information available from research published to the end of 2004 and offers some suggestions for future study. (© Wiley‐VCH Verlag GmbH & Co. KGaA, 69451 Weinheim, Germany, 2005)

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Section: Pentanonafulvalenesmentioning

confidence: 71%

“…equivalents of CuCl 2 in THF at -50°C results in the dihydro derivatives 165 and 14 (Scheme 36) with only traces of the [9.9] coupled molecule. [27,220] Scheme 36.…”

Section: Pentanonafulvalenesmentioning

confidence: 99%

The Fulvalenes

Halton

2005

Eur J Org Chem

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“…and we realized later a straightforward synthetic concept') for pentafulvalene 4 ( / I = 2) [19], nonapentafulvalene [20], and nonafulvalene 4 (n = 4) […”

Section: H~l L~t I C Amentioning

confidence: 99%

Oxidative Coupling of 6,6‐Dimethylpentafulvenyl Anion

You

Neuenschwander

Huber

1993

Helvetica Chimica Acta

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Oxidative treatment of anion 11 (obtained by deprotonation of 6,6‐dimethylpentafulvene 10, Scheme 3) with CuCl2 gives a very complex mixture of coupling products 13 (18%), 14 (16%), 15 (36%), 16 (5%), and 17 (6%) (Scheme 4 and Table 2). These results show that the reactive intermediate obtained by oxidation of 11 (which is believed to be the fulvenyl radical 12) has several reactive sites. According to the experiments, reactivity is decreasing in the series C(7) > C(2)/C(3) > C(5) > C(1)/C(4) (Table 2), while simple frontier‐orbital considerations would suggest the sequence C(7) > C(5) > C(2)/C(3) > C(1)/C(4). The results suggest that SOMO‐SOMO interaction of the approaching fulvenyl radicals 12 is the central effect governing regioselectivity and product distribution, while Coulomb and steric interactions are secondary effects (Table 4).

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“…First synthesis of 10: [15]; a nearly quantitative coupling takes place, if 6 is reacted with AgBF, [16] NMR Spectra of nonafulvenes and nonafulvalenes will be extcnsively discussed elsewhcrc.…”

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confidence: 99%

“…of Na-( Z Z 2 E ) B (Scheme 7, upper part), then the reaction mixture obtained, after chromatographic workup, consists of a 9 : 1 mixture of bicyclic 16 together with nonafulvene In. It is well-known that ( Z Z Z E ) d has several nucleophilic centres [24]: nucleophilic attack with C(1) leads to cyclononatetraenes 8, while attack with C(4) to C(7) gives, after rearrangement, bicyclo[6.1 .O]nonatrienes of type 16.…”

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Synthetic Attempts towards ‘Aromatic’ Nonafulvenes

Chai

Neuenschwander

1994

Helvetica Chimica Acta

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According to their spectroscopic behavior, four classes of nonafulvenes may be distinguished, but, so far, only three classes have been identified. Type-A nonafulvenes (including parent la) are typically olefinic molecules with strongly alternating bond lengths and a nonplanar nine-membered ring. Type-B nonafulvenes are characterized by four pairs of equivalent ring H-atoms and ring C-atoms. Spectra of both Type-A and Type-B nonafulvenes are not dependent on temperature and solvent polarity. However, spectra of Type-C nonafulvenes (including prototype Id with R' = R2 = NMe,) are strongly influenced by temperature and solvent polarity due to an equilibrium 1 p l * between the nonpolar olefinic 1 and dipolar planarized l*. So far, Type-D nonafulvenes occurring exclusively in the dipolar form l * were unknown. Synthetic attempts towards nonafulvenes of Type D are described and problems encountered in nonafulvene syntheses are discussed. Several new cyclononatetraenes and four new nonafulvenes (or nonafulvalenes) 31, In, 3, and 5 have been synthesized. Spectroscopic evidence shows that 11,12-bis(diethylamino)nonatriafulvalene 5 is the first Type-D nonafulvene.

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Nonapentafulvalen

Cited by 20 publications

References 16 publications

The Fulvalenes

The Fulvalenes

Oxidative Coupling of 6,6‐Dimethylpentafulvenyl Anion

Synthetic Attempts towards ‘Aromatic’ Nonafulvenes

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