Synthesis of Sulfur-Containing Tricyclic Ring Systems by Means of Photoinduced Decarboxylative Cyclizations

Griesbeck, Axel G.; Oelgemöller, Michael; Lex, Johann; Haeuseler, Andreas; Schmittel, Michael

doi:10.1002/1099-0690(200105)2001:10<1831::aid-ejoc1831>3.0.co;2-7

Cited by 41 publications

(26 citation statements)

References 53 publications

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“…10 Significantly lower triplet yields were determined for 3a-c and even lower values for 1, 2a-c, and 4a-e (Table 2). Photoinduced intramolecular charge separation between the thioether and the phthalimide moieties has been proposed to account for both decarboxylation and cyclization [1][2][3][4][5][6][7][8] which may be coupled processes. The cyclization products of 1, 2, and 4 are sulfur-containing heterocycles with five-, six-, and seven-membered ring systems.…”

Section: Discussionmentioning

confidence: 99%

“…8 The equivalent conductivity of the anion (Λ ∼ 40 cm 2 Ω -1 mol -1 ) is much lower than that of OH -(Λ ) 190 cm 2 Ω -1 mol -1 ). The reason for the primary increase of ∆κ in the acidic range is likewise due to OH -formation.…”

Section: Photolysismentioning

confidence: 99%

“…12 This reaction has been applied for ω-phthalimido alkylcarboxylic acids, where numerous applications for medium and large ring synthesis were developed. 5,6,8 The photochemistry of N-phthaloylmethionine (1), 2 N-phthaloyl-S-methyl-L-cysteine (2a), 4 and of phthalimidocarboxylic compounds containing a trans-cyclohexane-1,4-diyl spacer group between the nitrogen and the carboxyl group (3a-c) 11 has recently been described in detail. For the N-phthaloylvaline methyl ester we have proposed that the formation of a photoisomer as the main product upon direct excitation occurs via an upper excited n,π * triplet state.…”

Section: Introductionmentioning

confidence: 99%

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Photodecarboxylation Study of Carboxy-Substituted N-Alkylphthalimides in Aqueous Solution: Time Resolved UV−Vis Spectroscopy and Conductometry

2002

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The photophysical and photochemical properties of N-phthaloyltranexamic acid (3b) and N-methylsulfanylmethylphthalimide (4e) as well as several sulfur-containing carboxylates, N-phthaloylmethionine (1), N-phthaloyl-S-carboxymethylcysteine (2c), phthalimidomethylsulfanyl acetic acid (4a), and its derivatives 4b-4d were studied in aqueous solution by time-resolved UV-vis spectroscopy and conductivity using laser pulses at 248 or 308 nm. From the changes in absorption spectra upon continuous irradiation at 290 nm, the quantum yields of substrate decomposition (Φ d ) were measured for various cases. The quantum yields of formation of the lowest triplet state (Φ isc ) are small, when Φ d is large and vice versa. The quantum yields of decarboxylation, Φ(-CO 2 ), were determined by conductometry. Φ(-CO 2 ) is largest (0.3) for 3b in argonsaturated aqueous solution at pH 6-10 and decreases in the order 4a-c, 2c, 1, and 4d. The increase of Φ d vs pH indicates that carboxylic acids exhibit low decarboxylation efficiencies, whereas the corresponding anions effectively eliminate CO 2 and subsequently cyclize. The mechanisms of photochemical decomposition, decarboxylation, and cyclization are discussed.

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Section: Discussionmentioning

confidence: 99%

Section: Photolysismentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Photodecarboxylation Study of Carboxy-Substituted N-Alkylphthalimides in Aqueous Solution: Time Resolved UV−Vis Spectroscopy and Conductometry

2002

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“…Photoinduced electron transfer and subsequent proton transfer leads to triplet biradicals that combine to medium-and large-ring cycles, e. g. from the phthalimides 3-H and 5-H, respectively ( Figure 6). [22][23][24] This happens neither with the fluorescent 4,5-dimethoxy phthalimide 3 nor with the fluorescent 5, and thus, electron transfer quenching, e. g. from 3, is followed by rapid back electron transfer.…”

Section: Intramolecular Fluorescence Quenching: Alkyl Thioethersmentioning

confidence: 99%

Intra‐ and Intermolecular Fluorescence Quenching of Alkylthio‐Substituted Phthalimides by Photoinduced Electron Transfer: Distance, Position and Conformational Dependence

et al. 2019

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The photophysical properties of fluorescent phthalimides with thioether groups directly connected to the chromophore or separated by alkyl spacers, respectively, were studied. Intermolecular fluorescence quenching by electron transfer from dimethylsulfide to the 4,5-dimethoxy phthalimide (DMPht) model compound 6 is dynamic and fast. The fluorescence properties of 6 and the remote C 5 -spaced thioether derivative 5 are nearly identical. In compounds 1-4 with shorter spacer lengths, fluorescence quenching is strong for C 2 and C 3 -spaced 2 and 3 and less pronounced for C 1 -and C 4 -spaced compounds 1 and 4, mapping the conformational landscape of these molecules. The o-,m-,p-substituted N-(thiomethyl)benzyl DMPht 7 are almost non-fluorescent which correlates very well with the intermolecular thioanisole fluorescence quenching of 6. In contrast, the 3-and 4-thiomethyl phthalimides 8 and 9 show divergent fluorescence that is also rationalized by DFT calculation results. The fluorescence properties can be switched by oxidation of the thioethers to sulfoxides with H 2 O 2 or 1 O 2 (off! on for 1,4,7 and on!off for 9). Further functionalized molecules that were based on the model compounds are the sulfurcontaining amino acid methionine derivative 10, dipeptides 11 a,b, and S-alkylated cysteine derivatives 12 to 14 a-d with strong side-chain-dependent fluorescence.[a] Dr.

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“…Thus, upon sensitization, δ-derivatives undergo a less efficent reaction than α-, -, or γ-derivatives. [84,85] Such a structure is not possible for the 6-E isomer. Because both diastereomers give the same product and proceed through 1-adamantyl radical in- termediate 36-Z or 36-E, the observed differences in the efficiency of the reactions are most likely from the different rates of the PET between the carboxylate and the phthalimide rather than the different rates of CO 2 elimination.…”

Section: Photochemical Reactivitymentioning

confidence: 99%

Photodecarboxylation of Adamantane Amino Acids Activated by Phthalimide

et al. 2016

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Adamantane α‐, β‐, and δ‐amino acids activated by phthalimide (i.e., 3–6) were synthesized, and their photochemical reactivities were investigated. Amino acid derivatives 3–6 underwent a photoinduced electron transfer (PET) and decarboxylation reaction sequence, most probably through a triplet excited state. The decarboxylations of the β‐amino acid derivatives were succeeded by cyclization reactions that afforded complex polycyclic molecules with potential biological interest. The adamantyl radical that is produced by the photoinduced decarboxylation could be trapped by alkenes or oxygen to deliver adducts or alcohols, respectively. The photodecarboxylation process was shown to be more efficient under acetone sensitization conditions (with quantum yields, Φ = 0.02–0.5) than upon direct excitation, and the reactivity was dependent on the chain length (intramolecular distance) between the electron donor (carboxylate) and acceptor (phthalimide in the triplet excited state) of the derivative. The formation of different radicals, that is, the 1‐ or 2‐adamantyl intermediate, probably does not affect the overall rate of the decarboxylation This current report provides a better understanding of photodecarboxylation and the rational design of molecular systems to undergo photoinduced decarboxylation and cyclization reactions.

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Synthesis of Sulfur-Containing Tricyclic Ring Systems by Means of Photoinduced Decarboxylative Cyclizations

Cited by 41 publications

References 53 publications

Photodecarboxylation Study of Carboxy-Substituted N-Alkylphthalimides in Aqueous Solution: Time Resolved UV−Vis Spectroscopy and Conductometry

Photodecarboxylation Study of Carboxy-Substituted N-Alkylphthalimides in Aqueous Solution: Time Resolved UV−Vis Spectroscopy and Conductometry

Intra‐ and Intermolecular Fluorescence Quenching of Alkylthio‐Substituted Phthalimides by Photoinduced Electron Transfer: Distance, Position and Conformational Dependence

Photodecarboxylation of Adamantane Amino Acids Activated by Phthalimide

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