Synthesis and Reaction of α‐Dithiolactone

Shigetomi, Toshiyuki; Soejima, Hiroe; Nibu, Yoshinori; Shioji, Kosei; Okuma, Kentaro; Yokomori, Yoshinobu

doi:10.1002/chem.200600412

Cited by 31 publications

(5 citation statements)

References 43 publications

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“…In Larock’s early study on O-nucleophilic annulation protocol, they also showed examples with respect to S-nucleophiles (Scheme a). , In 2006, Okuma et al. investigated the reactivity of 3,3-di- tert -butylthiirane-2-thione ( 6-77 ) with Kobayashi benzyne precursor and obtained an annulation product 2-(2,2,4,4-tetramethylpentan-3-ylidene)benzo[ d ][1,3]dithiole ( 6-78 ) in 90% yield via intermediate 6-79 (Scheme a) . Subsequently, the same group examined the chemical behavior of 5-isopropylidene-4,4-dimehtyl-1,2-dithiolane-3-thione ( 6-80 ) and found that this compound could react with benzyne to generate benzo-1,3-dithiole 6-81 in 85% yield, the mechanistic pathway of which experiences the formation and recombination of a betaine intermediate 6-82 (Scheme b) …”

Section: Nucleophilic Annulation Reactionsmentioning

confidence: 99%

“…436,437 In 2006, Okuma et al investigated the reactivity of 3,3-di-tert-butylthiirane-2-thione (6-77) with Kobayashi benzyne precursor and obtained an annulation product 2-(2,2,4,4-tetramethylpentan-3-ylidene)benzo[d]- [1,3]dithiole in 90% yield via intermediate 6-79 (Scheme 86a). 472 Subsequently, the same group examined the chemical behavior of 5-isopropylidene-4,4-dimehtyl-1,2dithiolane-3-thione (6-80) and found that this compound could react with benzyne to generate benzo-1,3-dithiole 6-81 in 85% yield, the mechanistic pathway of which experiences the formation and recombination of a betaine intermediate 6-82 (Scheme 86b). 473 In 2015, Werz and co-workers prepared a series of amphiphilic benzodithioloimines 6-83 containing both positively and negatively polarized sulfur (Scheme 87).…”

Section: With S-and Se-nucleophilesmentioning

confidence: 99%

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o-Silylaryl Triflates: A Journey of Kobayashi Aryne Precursors

2021

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Arynes are among the most active organic intermediates and have found numerous applications in expeditious preparation of substituted arenes. In the past 20 years, chemists have witnessed a resurgence in aryne chemistry, which is mainly attributed by the extensive utilization of Kobayashi's method, a fluoride-induced removal of the TMS group with concomitant departure of its ortho OTf group on o-silylaryl triflates. Nowadays, o-silylaryl triflates are the most frequently employed aryne precursors. This review provides an overview of the history of Kobayashi's method, its methodological achievements, and its applications in the synthesis of natural products, bioactive molecules, and polycyclic aromatic hydrocarbons.

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Section: Nucleophilic Annulation Reactionsmentioning

confidence: 99%

Section: With S-and Se-nucleophilesmentioning

confidence: 99%

o-Silylaryl Triflates: A Journey of Kobayashi Aryne Precursors

2021

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“…6 They demonstrated that these compounds were highly reactive towards [Pt 0 (PPh 3 ) 2 (η 2 ‐C 2 H 4 )] ( 5 ) and they characterized the isolated dithiolato complexes, as well as thiolato–sulfenato complexes, by X‐ray diffraction 6a. 7a–c A similar reactivity was observed for naphtha‐[1,8 cd ][1,2]dithiols towards Pt 0 –olefin complexes 7d. e Thus, Pt 0 –olefin complexes can be considered as suitable trapping agents for dithiiranes.…”

Section: Introductionmentioning

confidence: 85%

ChemInform Abstract: The Topotactic Reduction of Sr₃Fe₂O₅Cl₂—Square Planar Fe(II) in an Extended Oxyhalide.

Dixon

Hayward

2010

ChemInform

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Two unsymmetrical 1,2,4‐trithiolanes (1d and 1e) were reacted with [Pt0(PPh3)2(η2‐nbe)] (6; nbe=norborn‐2‐ene) and [Pt0(dppn)(η2‐nbe)] (11; dppn=1,8‐bis(diphenylphosphanyl)naphthalene)), respectively. Their treatment with compound 6 resulted in the formation of six‐membered platinacycles of type 7, which selectively underwent fragmentation into dithiolato complexes and thiobenzophenone (4b). The isolation of the first stable C‐substituted member of this class of compounds (i.e., compound 7e) permitted kinetic studies of this process by using UV/Vis spectroscopy. These results, together with DFT calculations, allowed us to propose a mechanism for the reactions of compound 6 with 1,2,4‐trithiolanes. In contrast, similar treatment of compound 11 with compounds 1d and 1e at room temperature did not result in any reaction. Heating the appropriate samples to 110 °C led to the formation of dithiolato complexes and η2‐thioketone compounds, thus pointing to a thermally induced [3+2]‐cycloreversion of the heterocycles as an initial step of the reaction.

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“…[5] In contrast, the knowledge about a,b-unsaturated sulfines R 2 C=C=S=O, also known as thioketene S-oxides, is limited, despite that their applicationsi nt he construction of three-membered cyclic a-dithiolactones have been reported. [6] Due to facile polymerization at room temperatures, only very few sterically stabilized thioketene S-oxides have been characterized, including the most frequently used di-tert-butylthioketene Soxide, which was synthesized from the oxidation of thioketene. [7] The simplest a,b-unsaturated sulfine H 2 C=C=S=O, which may also be considereda sv inylidene sulfoxide, remained elusive so far.A na ttempted synthesis from the flash vacuum pyrolysis (FVP) of two retro Diels-Alder precursors ethanoanthracenic sulfine and sulfoxide wasr eported by VallØee tal.…”

Section: Introductionmentioning

confidence: 99%

Parent Thioketene S‐Oxide H₂CCSO: Gas‐Phase Generation, Structure, and Bonding Analysis

Sokolenko

et al. 2017

Chemistry A European J

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The parent thioketene S-oxide H CCSO has been generated in the gas phase through flash vacuum pyrolysis (ca. 1000 K) of vinyl sulfoxide H CC(Br)-S(O)CF via the intermediacy of a novel vinyl sulfinyl radical H C=C(Br)-SO (syn and anti conformers). Upon irradiation at 266 nm, H CCSO decomposes into HCCH/SO and H CS/CO in cryogenic Ar matrix. Whereas, visible-light irradiations result in syn↔anti conformational interconversion in H C=C(Br)-SO. The molecular structures of H CCSO and isomers are computationally studied at the CCSD(T)-F12/VTZ-F12 level of theory, and the bonding properties of H CCSO are analyzed with the EDA-NOCV method at the M06-2X/TZ2P level.

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Synthesis and Reaction of α‐Dithiolactone

Cited by 31 publications

References 43 publications

o-Silylaryl Triflates: A Journey of Kobayashi Aryne Precursors

o-Silylaryl Triflates: A Journey of Kobayashi Aryne Precursors

ChemInform Abstract: The Topotactic Reduction of Sr₃Fe₂O₅Cl₂—Square Planar Fe(II) in an Extended Oxyhalide.

Parent Thioketene S‐Oxide H₂CCSO: Gas‐Phase Generation, Structure, and Bonding Analysis

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Synthesis and Reaction of α‐Dithiolactone

Cited by 31 publications

References 43 publications

o-Silylaryl Triflates: A Journey of Kobayashi Aryne Precursors

o-Silylaryl Triflates: A Journey of Kobayashi Aryne Precursors

ChemInform Abstract: The Topotactic Reduction of Sr3Fe2O5Cl2—Square Planar Fe(II) in an Extended Oxyhalide.

Parent Thioketene S‐Oxide H2CCSO: Gas‐Phase Generation, Structure, and Bonding Analysis

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ChemInform Abstract: The Topotactic Reduction of Sr₃Fe₂O₅Cl₂—Square Planar Fe(II) in an Extended Oxyhalide.

Parent Thioketene S‐Oxide H₂CCSO: Gas‐Phase Generation, Structure, and Bonding Analysis