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Photoreactions of trans-10b,10c-Dimethyl-10b,10c-dihydropyrenes (1997)

Cerfontain, Hans ; Koeberg-Telder, Ankie ; Bakker, Bert H. ; [et al.]

Weinheim : Wiley-Blackwell

Liebigs Annalen 1997 (1997), S. 873-878

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ISSN: 0947-3440

Keywords: [14]Annulenes ; [2.2]Metacyclophane-1,9-dienes ; Photochemistry ; Photooxidation ; Endoperoxides ; Chemistry ; Organic Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: The photoisomerization of trans-10b,10c-dimethyl-10b,10c-dihydropyrene (1), its 2,7-di-tert-butyl derivative 5 and a series of potassium sulfonate derivatives of 1, in both [D8]1,4-dioxane and [D2]dichloromethane as solvent, has been studied using λ = 420-570 nm irradiation. Irradiation of a deoxygenated solution of 1 in dioxane leads to the exclusive formation of anti-8,16-dimethyl[2.2]metacyclophane-1,9-diene (2), whereas the photoconversion of 1 in a non-degassed solution leads to the successive formation of 2 and 5,8-epidioxy-anti-8,16-dimethyl[2.2]metacyclophane-1,9-diene (7). Similarly, irradiation of the 2,7-di-tert-butyl derivative 5 in oxygen containing [D8]dioxane as solvent leads to the consecutive formation of the corresponding 5,13-di-tert-butyl derivatives 6 and 8. Irradiation of mixtures of potassium sulfonate derivatives of 1 (1-Sn) in D2O as solvent leads to photoisomerization with formation of the correspondingly substituted sulfonate derivatives of 2. Only with the dipotassium 2,4- and 2,5-disulfonates of 1 eventually small amounts of the corresponding epidioxy-bridged products 7 were formed. The photoisomerization 1-Sn → 2-Sn appeared to be most effective for 1-2-S and 1-2,5-S2 and least effective for 1-2,4,7-S3 and 1-2,4,7,10-S4. In the dark, the epidioxy products 7 and 8 reverted to give initially the corresponding metacyclophanes 2 and 6, and subsequently the respective dihydropyrenes 1 and 5, and the dark reactions of the potassium sulfonate derivatives 2-Sn yielded the correspondingly substituted 1-Sn. A quantitative study showed that the dark reactions steps 7 → 2, 8 → 6, and 2-Sn → 1-Sn (n = 1-4) exhibit first-order kinetics. For the deoxygenation of 5,8-epidioxy-anti-8,16-di-methyl[2.2]metacyclophane-1,9-diene (7) the rate coefficient is ca. 2.7 times that of its 5,13-di-tert-butyl derivative (8), and the rate coefficient for the isomerization 2-Sn → 1-Sn follows the order 2-5-S → 2-5,13-S2 〉 2-1,5,10-S3.

Additional Material: 3 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/jlac.199719970513

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Sulfonation of Alkenes by Chlorosulfuric Acid, Acetyl Sulfate, and Trifluoroacetyl Sulfate (1999)

Bakker, Bert H. ; Cerfontain, Hans

Weinheim : Wiley-Blackwell

Liebigs Annalen 1999 (1999), S. 91-96

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ISSN: 1434-193X

Keywords: Alkenes ; Electrophilic additions ; β-Sultones ; sec-Alkyl chlorosulfate ; 2-Chloro-1-alkanesulfonic acid ; Chemistry ; General Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: -An exploratory study has been made on the reaction of a number of non-branched alkenes in [D]chloroform as an aprotic solvent, using chlorosulfuric acid as reagent both in the presence and the absence of [D8]1,4-dioxane as complexing agent. Reaction of cyclopentene (1a) with 1.1 mol-equiv. of chlorosulfuric acid in [D]chloroform in the presence of 2.2 mol-equiv. of [D8]1,4-dioxane at 0 °C yielded quantitatively 1,2-cyclopentanesultone (2a). Under similar reaction conditions, the linear alkenes 1b-g afforded the corresponding β-sultones 2b-g. The ClSO3H-dioxane complex acted as a sulfonating reagent with the alkenes to yield the corresponding β-sultones in a syn cycloaddition of SO3 to the Carbon-Carbon double bond. In the absence of [D8]1,4-dioxane the reaction of the linear alkenes 1a-1k in [D]chloroform with chlorosulfuric acid at -40 °C led to the formation of the sec-alkyl chlorosulfates 5a-i, which were formed after initial protonation of the alkene by the strongly acidic ClSO3H. Cyclopentyl chlorosulfate (5a) in [D]chloroform at 0 °C was quantitatively converted into 1,2-cyclopentanesultone (2a). The sec-alkyl chlorosulfates 5b-i at 0 °C gave rise to a mixture of the internal trans- and cis-β-sultones 2b-m. Reaction of 1-octene (1g) with both acetyl sulfate (6a) and trifluoroacetyl sulfate (6b) as reagent in [D]chloroform at -20 °C directly afforded the products 1,2-octanesultone (2g), and the (E) and (Z) isomer of 2-octene-1-sulfonic acid (4g).

Type of Medium: Electronic Resource

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