- Electrochemical direct carboxylation of benzyl alcohols having an electron-withdrawing group on the phenyl ring: One-step formation of phenylacetic acids from benzyl alcohols under mild conditions
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Electrochemical direct carboxylation of benzyl alcohols having an electron-withdrawing group on the phenyl ring was successfully carried out by constant current electrolysis using an undivided cell equipped with a platinum plate cathode and a magnesium rod anode in DMF in the presence of carbon dioxide. Reductive cleavage of the C-O bond followed by fixation of carbon dioxide efficiently took place at the benzylic position without any additive to give the corresponding phenylacetic acids in good yields in one step under neutral and mild conditions.
- Senboku, Hisanori,Yoneda, Kenji,Hara, Shoji
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- A substituted aromatic alcohols of the economical efficiency of the synthesis process (by machine translation)
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The invention discloses a substituted aromatic alcohols of the economical efficiency of the synthesis process, the COOR1 - C6 F4 - COOR1 (R1 Representative C1 - C4 Alkyl) to the organic solvent in the input, in the NaBH4 Under the action of the shall CH reduction reaction2 OH - C6 F4 - CH2 OH (II) and CH2 OH - C6 F4 - COOH (III); the mixture is dissolved in a weak acid buffer solution, after adjusting the pH of the extraction, the aqueous layer containing in II, III contained in the oil reservoir; the oil reservoir into the non-protic solvent removes the carboxyl, shall be CH2 OH - C6 HF4 . The present invention, reduction process residence in the intermediate state, the process on the reduction reducing the requirements of the complete degree, reduce the used as the reducing agent; the mixture with chemical separation, the product is very good use can be obtained. (by machine translation)
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Paragraph 0029; 0032; 0038; 0040
(2019/05/15)
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- Extending the series of p-substituted tetrafluorobenzoic acids: synthesis, properties and structure
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The synthesis of the derivatives of p-aminotetrafluorobenzoic acid, p-H2NC6F4CO2H (2b), by hydrolysis, acylation or interaction with aldehydes was developed giving H2NC6F4CO2K (2a), C6F5C(O)N(H)C6F4CO2Et (3) and (E)-ArCH[dbnd]NC6F4CO2Et (4–11). The chemical derivatization of tetrafluoroterephthalic acid, p-HO2CC6F4CO2H (12), by hydrolysis, etherification and reduction was performed giving a number of symmetrical X(O)CC6F4C(O)X (13–15; X?=?Cl, NEt2, OMe) or unsymmetrical YC6F4CO2Me (15a–b, 16, 18–21; Y?=?CO2K, CO2H, CH2OH, C(O)Cl, C(O)C6H3(i-Pr)2, CO2CH2C6F4CO2Me, CO2C6H4Bu-t), HOCH2C6F4CO2H (17), [MeO2CC6F4]2Y (22, 23; Y?=?OCH2CH2O, N(H)C6H4N(H)) compounds. All substances were thoroughly investigated by spectroscopic methods (multinuclear NMR and IR spectroscopy, mass-spectrometry). The molecular structures of p-H2NC6F4CO2Et (2) and p-HO2CC6F4CO2Me (15b) have been determined by X-ray diffraction analysis.
- Zaitsev, Kirill V.,Oprunenko, Yuri F.,Lermontova, Elmira Kh.,Churakov, Andrei V.
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- METHOD FOR PRODUCING HALOGEN-SUBSTITUTED BENZENEDIMETHANOL
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A method for producing a halogen-substituted benzenedimethanol represented by the formula (2): wherein X1, X2, X3 and X4 are the same or different and each independently represent a hydrogen atom or a halogen atom, provided that X1, X2, X3 and X4 are not hydrogen atoms at the same time, by reacting a halogen-substituted terephthalic acid represented by the formula (1): wherein X1, X2, X3 and X4 are the same meanings as defined above, with a borohydride compound in an organic solvent, followed by contacting the obtained reaction mixture with hydrogen chloride at 40 to 70°C.
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Page/Page column 4
(2008/12/08)
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