Carbocations polycyclic

Strong acids or superacid systems generate stable fluorinated carbocations [40, 42] Treatment of tetrafluorobenzbarrelene with arenesulfonyl chlorides in nitro-methane-lithium perchlorate yields a crystalline salt with a rearranged benzo barrelene skeleton [43] Ionization of polycyclic adducts of difluorocarbene and derivatives of bornadiene with antimony pentafluonde in fluorosulfonyl chloride yields stable cations [44, 45]... 

Polyene Cyclization. Perhaps the most synthetically useful of the carbo-cation alkylation reactions is the cyclization of polyenes having two or more double bonds positioned in such a way that successive bond-forming steps can occur. This process, called polyene cyclization, has proven to be an effective way of making polycyclic compounds containing six-membered and, in some cases, five-membered rings. The reaction proceeds through an electrophilic attack and requires that the double bonds that participate in the cyclization be properly positioned. For example, compound 1 is converted quantitatively to 2 on treatment with formic acid. The reaction is initiated by protonation and ionization of the allylic alcohol and is terminated by nucleophilic capture of the cyclized secondary carbocation. 

One very fascinating domino reaction is the fivefold anionic/pericydic sequence developed by Heathcockand coworkers for the total synthesis of alkaloids of the Daphniphyllum family [351], of which one example was presented in the Introduction. Another example is the synthesis of secodaphniphylline (2-692) [352]. As depicted in Scheme 2.154, a twofold condensation of methylamine with the dialdehyde 2-686 led to the formation of the dihydropyridinium ion 2-687 which underwent an intramolecular hetero- Diels-Alder reaction to give the unsaturated iminium ion 2-688. This cydized, providing carbocation 2-689. Subsequent 1,5-hydride shift afforded the iminium ion 2-690 which, upon aqueous work-up, is hydrolyzed to give the final product 2-691 in a remarkable yield of about 75 %. In a similar way, dihydrosqualene dialdehyde was transformed into the corresponding polycyclic compound [353]. 

A Pd11- or Ptn-induced polycyclization of compounds containing two or even three C=C-double bonds and a hydroxyl group was described by Gagne and coworkers [179]. Thus, reaction of6/1-377 with equimolar amounts of the Ptn complex 6/1-378 led to the Pt-alkyl complex 6/1-379. Treatment of6/1-379 with NaBH4 provided the tetracyclic 6/1-380 as a 96 3 1 mixture in 86% yield (Scheme 6/1.95). It was proposed that, in the domino process, carbocations are formed as intermediates. 

The results suggest that chinoid type structures are the predominant resonance contributors for 88. The IGLO/DZ//3-21G calculated 13C NMR chemical shifts of benzylic monocations 88 correlate reasonably well with the experimentally obtained data. The 13C NMR chemical shifts of the carbocation centers (CH2 carbon) are calculated 10.6-12.5 ppm too deshielded. Similar results were obtained for benzylic dications 89. NMR chemical shifts of arenium ions derived from various classes of polycyclic aromatic hydrocarbons have been calculated using GIAO-DFT methods.103... 

Bicyclic and polycyclic carbocations, NMR spectroscopy, 145-150 1, 2-dimethyl-2-norbornyl cation, 149 bicyclobutonium ions, 145-146, 146/ 3- /<7o-trialkylsilylbicyclobutonium ions, 147-148... 

Quantum Chemical Studies of Carbocations from Oxidized Metabolites of Aza-Polycyclic Aromatic Flydrocarbons... 

In later studies by various groups, the enyneallene motif was incorporated into more complex hydrocarbon structures, allowing not only a better understanding of the Myers cyclization but also the generation of polycyclic hydrocarbons, some of them resembling the steroid core unit. Conceptually, these latter cyclizations are reminiscent of Johnson s biomimetic cyclization reactions with the main difference that here radical intermediates are involved rather than carbocations. Typical starting materials in these studies are the allenes 221 [87], 222 [88] and 223 [89], their cyclization behavior being discussed in Chapter 20. 

Since carbocations are structurally similar to ketones, they are discussed here. Schleyer s force field incorporates carbocation parameters, and Harris is exploring their application in conformational analysis (188). The calculated angles in a series of rigid polycyclic carbocations correlated well with ketone infrared frequencies (188a). The calculated relative stabilities among various conformers of tertiary cations of methylcyclohexane, methylcycloheptane, and methyl-cyclooctane do not contradict the limited MNR observations of these species at low temperature (188b). 

Earlier progress in these studies has been summarized in reviews published in the last decade, emphasizing carbocations and oxidation dications, RCs, as well as reactive intermediates from the nitro- and nitroso-derivatives. The review article published in 1996 emphasized groundwork studies on protonation as well as oxidation (both RCs and stable dications) of polycyclic arenes and explored possible relationships between charge distribution and carcinogenicity, in concert with its... 

For many polycyclic carbocations there is a good correlation between the changes in strain energies on carbocation formation, predicted by molecular mechanics calculations, and the solvolysis rates. However, at 70° cubyl cation is formed 10 times faster than expected from this correlation." " " What is responsible for this huge rate acceleration ... 

Laali et al. have characterized carbocations generated from substituted polycyclic aromatic compounds. The related cation 157 is a true aryl-methyl-type ion, whereas cations 158 have arenium ion character because the strongly electron-withdrawing a-CF3 group enhances charge delocalization into the pyrenyl and phenyl groups. 

Many more cyclic and polycyclic equilibrating carbocations have been reported. Some representative examples, namely, the bisadamantyl (499),859 2-norbornyl (500),40 7-perhydropentalenyl (501),188 9-decalyl (502),188 and pentacylopropylethyl (503)860 cations, are given in Scheme 3.19. All these systems again involve hypercoordinate high-lying intermediates or transition states. 

Cedric Brule is a postdoctoral fellow since 2006 in Professor J. Marchand-Brynaert s Organic and Medicinal Chemistry Laboratory at the Universite catholique de Louvain (UCL) at Louvain-la-Neuve, Belgium. He received his Ph.D. degree in Chemistry in 2004 for studies on trifluoro-methylated nitrogen-containing heterocycles in Professor Charles Portella s laboratory at the University of Reims, France. His Ph.D. studies were in collaboration with the Cerep Pharmaceutical Company in Paris, where he also worked for 6 months. Afterward, he spent 1 year of postdoctoral research in Professor Kenneth K. Laali s laboratory at Kent State University (Ohio, USA, 2005-06), supported by an NIH grant, to work on polycyclic aromatic hydrocarbons (PAHs) in the field of carbocations chemistry. 

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