Flow Photo-On-Demand Phosgenation Reactions with Chloroform

Liu, Yue; Okada, Itsuumi; Tsuda, Akihiko

doi:10.1021/acs.oprd.2c00322

Cited by 9 publications

(10 citation statements)

References 37 publications

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“…These results indicated that the photochemical oxidation of CHCl 3 occurred not only in the liquid phase but also in the gas phase. In support of this hypothesis, we recently reported that gaseous CHCl 3 underwent efficient photochemical oxidation to give COCl 2 in >96% yield . We expected that the photochemical oxidation of CHCl 3 would occur in the gas phase even with a heterogeneous mixture of CHCl 3 and water, given the large difference in their vapor pressures (21.1 and 2.3 kPa, respectively, at 20 °C) .…”

Section: Introductionmentioning

confidence: 75%

Photo-on-Demand In Situ Phosgenation Reactions That Cross Three Phases of a Heterogeneous Solution of Chloroform and Aqueous NaOH

et al. 2023

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Here, we report a novel photo-on-demand in situ phosgenation reaction that crosses three phases of a heterogeneous solution of chloroform (CHCl3) and aqueous NaOH containing an aryl alcohol or amine. This reaction system enables the safe, convenient, and inexpensive synthesis of carbonate esters, polycarbonates, and N-substituted ureas from aryl alcohols, aryl diols, and primary/secondary amines, respectively, on a practical scale and with good yield. The photochemical oxidation of CHCl3 to phosgene (COCl2) occurs upon irradiation with UV light from a low-pressure mercury lamp of both the gas and liquid phases of the reaction system under O2 bubbling of the vigorously stirred sample solution. The following reaction mechanisms are suggested: The aryl alcohol reacts in situ with the generated COCl2 at the interfaces of the organic/aqueous phases and aqueous/gas phases, in competition with the decomposition of COCl2 due to hydrolysis. Nucleophilicity and hydrophilicity are enhanced by the formation of aryl alkoxide ion through the reaction with NaOH, whereas the reaction of amine proceeds through neutralization of the generated HCl by the aqueous NaOH.

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Section: Introductionmentioning

confidence: 75%

Photo-on-Demand In Situ Phosgenation Reactions That Cross Three Phases of a Heterogeneous Solution of Chloroform and Aqueous NaOH

et al. 2023

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“…However, interestingly, 2,2,2-trifluoroethanol (TFE) allowed the reaction under the same conditions to give the corresponding TCAE and carbonate esters in 65 and 24% yields (entry 2), which likely originated from the reactions with TCAC and COCl 2 , respectively. TFE, having higher acidity (p K a = 12.4) than that of MeOH, may form an acid–base complex with pyridine to reduce its vaporization by increasing the nucleophilicity, causing the condensation reactions. The reaction was accelerated upon increasing the reaction temperature, increasing the yield of the carbonate ester (entry 3).…”

Section: Resultsmentioning

confidence: 99%

“…The photochemical reactions of TCE with UV-C light were performed with reaction systems similar to those of the photo-on-demand in situ syntheses with CHCl 3 reported previously. , A low-pressure mercury lamp (LPML) mainly generates 184.9 and 253.7 nm light, which covers the electronic absorption bands of chlorinated alkanes originating from the σ–σ* and/or n –σ* transitions . The 20 W LPML (ø24 mm × 120 mm, illuminance at 5 mm distance: 2.00–2.33 and 5.96–8.09 mW/cm 2 at 185 and 254 nm, respectively) was inserted into the reaction system via a quartz glass jacket (ø28 mm × 150 mm) fixed in the center of a three-necked round-bottom flask (1 L) (Figure A) or a cylindrical flask (ø42 mm × 170 mm) as reported previously.…”

Section: Resultsmentioning

confidence: 99%

“…However, to the best of our knowledge, no example has been reported for the synthesis of carbonate esters from TCE via the reaction of TCAE and an alcohol. Carbonate esters including alkyl-substituent groups are high-polarity compounds with wide liquid temperature ranges and are used as solvents for lithium-ion batteries and as carbonyl sources in organic synthesis. − They are generally synthesized by the condensation reactions of COCl 2 with alcohol, Pd- or Cu-catalyzed reactions of CO with alcohol, and transesterifications of ethylene carbonate (EC), which is prepared from CO 2 and ethylene oxide (EO), with alcohol. − The present study reports an in situ one-pot synthesis of alkyl carbonate esters from TCE and primary alcohols via the photochemical oxidation of TCE. Acyclic and cyclic alkyl carbonate esters could be synthesized from TCE and alcohols by three methods [(III), (IVa), and (IVb) in Scheme ].…”

Section: Introductionmentioning

confidence: 99%

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Photo-on-Demand In Situ One-Pot Synthesis of Carbonate Esters from Tetrachloroethylene

Higashimura,

Shele,

Akamatsu

et al. 2024

J. Org. Chem.

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The present study reports a novel one-pot synthesis of carbonate esters with photo-oxidized tetrachloroethylene (TCE). Acyclic and cyclic alkyl carbonate esters could be synthesized through base-promoted condensation reactions of alcohols with the photo-oxidized TCE that was prepared by irradiation with UV-C or visible light under O 2 or O 2 /Cl 2 (∼4%) bubbling, respectively. Cyclic carbonate esters could also be synthesized from a solution of TCE and the ethylene glycol derivative by irradiation of UV-C light under O 2 bubbling. With respect to the reaction mechanism, the photochemical oxidation of TCE mainly provides the highly toxic and corrosive trichloroacetyl chloride (TCAC), which then reacts in situ with the alcohol to give the corresponding trichloroacetic acid ester (TCAE). The subsequent intermolecular or intramolecular base-catalyzed condensation reaction of TCAE with or without the addition of alcohol leads to elimination of CHCl 3 in the corresponding carbonate ester. The present reactions enable the in situ one-pot synthesis of a variety of alkyl carbonate esters under mild conditions without the direct handling of TCAC. This is beneficial in terms of safety, cost, and reduced environmental impact.

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“…Therefore, C-H hydrogen abstraction by Cl and subsequent oxygenation proceed under appropriate reaction conditions. Tsuda et al previously reported the synthesis of carbonates, [90][91][92] chloroformates, 93 Vilsmeier reagents, 94 urea and isocyanate (Scheme 19) by the in situ generation of COCl 2 via the oxygenation of CHCl 3 initiated by Cl under UV-light irradiation. 95 More recently, they have also reported CHCl 3 oxygenation under visible-light irradiation using trace amounts of Cl 2 as an initiator.…”

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confidence: 99%