2568-90-3Relevant articles and documents
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Bal,B.S.,Pinnick,H.W.
, p. 3727 - 3728 (1979)
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Utilization of Formic Acid as C1 Building Block for the Ruthenium-Catalyzed Synthesis of Formaldehyde Surrogates
Beydoun, Kassem,Thenert, Katharina,Wiesenthal, Jan,Hoppe, Corinna,Klankermayer, Jürgen
, p. 1944 - 1947 (2020/04/08)
Dialkoxymethanes are becoming increasingly important as fuel additives, formaldehyde surrogates, and chemical intermediates, but the effective synthesis remains challenging. Herein, the catalytic synthesis of dialkoxymethane products using a molecular catalyst is reported. The catalytic system, comprising the [Ru(triphos)(tmm)] in combination with the Lewis acid Al(OTf)3, enables the direct synthesis of dialkoxymethane products with formic acid as C1 building block in high to excellent turnover numbers.
Br?nsted-acidic ionic liquids as efficient catalysts for the synthesis of polyoxymethylene dialkyl ethers
Song, Heyuan,Kang, Meirong,Jin, Fuxiang,Wang, Guoqin,Li, Zhen,Chen, Jing
, p. 853 - 861 (2017/05/24)
Acetalation of formaldehyde (HCHO) with dialkyl formal or aliphatic alcohol to prepare polyoxymethylene dialkyl ethers (RO(CH2O)nR, n ≥ 1) catalyzed by Br?nsted-acidic ionic liquids has been developed. The correlation between the structure and acidity activity of various ionic liquids was studied. Among the ionic liquids investigated, 1-(4-sulfonic acid)butyl-3-methylimidazolium hydrogen sulfate ([MIMBs]HSO4) exhibited the best catalytic performance in the reaction of diethoxymethane (DEM1) with trioxane. The influences of ionic liquid loading, molar ratio of DEM1 to HCHO, reaction temperature, pressure, time, and reactant source on the catalytic reaction were explored using [MIMBs]HSO4 as the catalyst. Under the optimal conditions of n([MIMBs]HSO4):n(DEM1):n(HCHO) = 1:80:80, 140 °C, and 4 h, the conversion of HCHO and selectivity for DEM2–8 were 92.6% and 95.1%, respectively. The [MIMBs]HSO4 catalyst could be easily separated and reused. A feasible mechanism for the catalytic performance of [MIMBs]HSO4 was proposed.
Preparation method of dibutoxymethane
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Paragraph 0035; 0036, (2016/10/10)
The invention discloses a preparation method of dibutoxymethane and relates to a preparation method of methane. The method comprises the process as follows: dimethoxymethane and n-butanol in a certain proportion are taken as raw materials, various liquid acids and supported liquid acids are taken as catalysts, the mixture is subjected to a reaction at the temperature of 0-160 DEG C and under the pressure of 0.1-10.0 MPa, and dibutoxymethane is generated in a high-selectivity manner; a heteropolyacid catalyst is prepared with an equivalent-volume impregnation method, and at least one of activated carbon, TiO2, Al2O3, SiO2, SBA-15 and MCM-41 is taken as a supporter; the supported heteropolyacid catalyst comprises heteropolyacid and a supporter for supporting the heteropolyacid, and heteropolyacid is one or more of phosphotungstic acid, silicotungstic acid, phosphomolybdic acid and silicomolybdic acid. A product prepared with the method is relatively single, the selectivity is high, required raw materials are cheap and easy to obtain, the whole process is simple to operate, no chemical substances polluting the environment are produced, and the preparation method belongs to an environment-friendly technological route.