765-43-5Relevant articles and documents
(Di)triazolylidene manganese complexes in catalytic oxidation of alcohols to ketones and aldehydes
Pinto, Mara F.,Olivares, Marta,Vivancos, ángela,Guisado-Barrios, Gregorio,Albrecht, Martin,Royo, Beatriz
, p. 2421 - 2425 (2019)
Carbonyl manganese complexes with chelating or bridging mesoionic di(1,2,3-triazolylidene) ligands were efficiently synthesised and fully characterised, including the X-ray diffraction study of a bimetallic manganese(0) complex. This unprecedented bimetallic complex displayed high yield and selectivity in the catalytic oxidation of secondary alcohols and benzyl alcohol with tert-butyl hydroperoxide under mild conditions.
(±)-Camphor sulfonic acid assisted IBX based oxidation of 1° and 2° alcohols
Kumar, Kamlesh,Joshi, Penny,Rawat, Diwan S
, (2021/09/02)
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IBX-TfOH mediated oxidation of alcohols to aldehydes and ketones under mild reaction conditions
Kumar, Kamlesh,Kumar, Prashant,Joshi, Penny,Rawat, Diwan S
supporting information, (2020/03/04)
An efficient, practical and facile procedure has been developed for the oxidation of primary and secondary alcohols using IBX-TfOH catalytic system in 1,4-dioxane at ambient temperature. The reaction affords quantitative yields of the corresponding carbonyl compounds without the formation of over oxidized products. The present synthetic protocol is compatible with a variety of substrates having arene, heteroarene and alkene functionalities. The developed synthetic protocol can be used for higher scale reactions as evident by the oxidation of alcohol at 1 g scale in higher yields by a simple filtration process.
Preparation method of 1-chloro-1-chloroacetyl cyclopropane
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Paragraph 0035; 0036, (2020/04/17)
The invention provides a preparation method of 1-chloro-1-chloroacetyl cyclopropane. The preparation method comprises the following steps: 1)reacting 1, 3-butadiene with diazomethane to generate vinylcyclopropane; 2)reacting the vinyl cyclopropane with an oxidation reagent to generate acetyl cyclopropane; and 3)reacting the acetyl cyclopropane with a chlorination reagent to generate the target product 1-chloro-1-chloroacetyl cyclopropane. The method can reduce the use of strong acids, strong bases and chlorination reagents in the preparation of the 1-chloro-1-chloroacetyl cyclopropane, thereby reducing the discharge of three wastes and lowering the safety risk, and can enhance the synthesis yield to adapt to industrial production.