Synthesis, structure, and photoreactions of fluorinated 2,11‐diaza[32]paracyclophane: Photochemical formation of cage‐diene type benzene dimer

An octafluorinated 2,11‐diaza[32]paracyclophane derivative 12 was prepared, and its photochemical reaction was investigated. Upon irradiation at 300 nm, the fluorinated azacyclophane 12 underwent efficient photodimerization of the benzene cores to afford the corresponding photoisomer 13, which posse...

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Bibliographic Details
Published in:Journal of physical organic chemistry 2017-09, Vol.30 (9), p.n/a
Main Authors: Okamoto, Hideki, Kozai, Tetsuya, Okabayashi, Zenji, Shinmyozu, Teruo, Ota, Hiromi, Amimoto, Kiichi, Satake, Kyosuke
Format: Article
Language:English
Subjects:
azacyclophane
Benzene
benzene dimer
cage compound
Cages
Crystal structure
Crystals
Cycloaddition
cyclophane
Diffraction
Fluorination
Hydrocarbons
Isomerization
Molecular structure
Photochemical reactions
photocycloaddition
Single crystals
X-ray diffraction
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Summary:An octafluorinated 2,11‐diaza[32]paracyclophane derivative 12 was prepared, and its photochemical reaction was investigated. Upon irradiation at 300 nm, the fluorinated azacyclophane 12 underwent efficient photodimerization of the benzene cores to afford the corresponding photoisomer 13, which possessed cage diene benzene dimer structure (pentacyclo[6.4.0.0.2,70.3,1206,9]dodeca‐4,10‐diene skeleton). The cage diene structure was established by single‐crystal X‐ray diffraction analysis. The cage diene 13 thermally isomerized to a syn‐o,o′‐dibenzene isomer 22. The activation parameters for the thermal isomerization were determined to be Ea = 121 kJ mol−1, ΔH≠ = 118 kJ mol−1, ΔS≠(293 K) = 22 J mol−1 K−1, and ΔG≠(293 K) = 111 kJ mol−1. It was revealed that, by photoirradiation at 300 nm, the syn‐o,o′‐dibenzene isomer 22 underwent facile intramolecular [π4s + π4s] cycloaddition to reproduce the cage diene isomer 13. Fluorinated azacyclophane was synthesized, and its photoreaction was investigated. Upon photolysis, the 2 benzene cores of the azacyclophane dimerized to produce a cage diene benzene dimer. The structure and photo‐ and thermal behavior of the cage diene isomer were also revealed.
ISSN:0894-3230
1099-1395
DOI:10.1002/poc.3726