499-54-7Relevant articles and documents
SYNTHESIS OF ALIPHATIC ALCOHOLS AS AROMA CHEMICALS
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Page/Page column 17, (2019/05/02)
The present invention relates to a method for preparing a compound of formula (I). The present invention also relates to compounds of formula (A) or a compound in the form of a stereoisomer. The present invention further relates to the use of a compound of formula (A) as aroma chemical.
Preparation and Catalytic Property of Multi-walled Carbon Nanotubes Supported Keggin-Typed Tungstosilicic Acid for the Baeyer-Villiger Oxidation of Ketones
Yang, Zhiwang,Xu, Xueqing,Li, Tianjing,Zhang, Nana,Zhao, Xia,Chen, Wenlong,Liang, Xixi,He, Xinli,Ma, Hengchang
, p. 1955 - 1960 (2015/12/24)
Multi-walled carbon nanotubes (MWCNTs) supported HSiW/MWCNTs was successfully prepared and characterized by Fourier transform infrared spectoscopy, X-ray powder diffraction, transmission electron microscopy and N2 adsorption-desorption test. Its catalytic performance for the catalytic Baeyer-Villiger oxidation of cyclic ketones with 30 % H2O2 as oxidants was investigated. It was found that HSiW/MWCNTs was very efficient to transform of some cycloketones to the corresponding lactones with high conversions as well as selectivities. Factors affecting the oxidations and the reusability of the catalyst were also investigated. It was found that the catalyst can be reused seven times in the catalytic oxidation reaction of cyclopentanone without obviously catalytic activity losing in the oxidation. Graphical Abstract: A supported solid acid of HSiW/MWCNTs was used as efficient catalyst for the Baeyer-Villiger oxidation of ketones. High cyclopentanone conversion (98 %) and ε- valerolactone selectivity (99 %) were obtained. The catalyst can be reused at least seven runs in the oxidation of cyclopentanone.
Lactones 34 [1]. Application of alcohol dehydrogenase from horse liver (HLADH) in enantioselective synthesis of δ- and ε-lactones
Boratynski, Filip,Kielbowicz, Grzegorz,Wawrzenczyk, Czeslaw
experimental part, p. 30 - 36 (2010/12/18)
The ability of horse liver alcohol dehydrogenase (HLADH) to the enantioselective oxidation of primary-primary, primary-secondary and primary-tertiary aliphatic 1,5- and 1,6-diols 1a-i was studied. No enantioselectivity of the transformations of primary-primary 1,6-diols 1a-d to ε-lactones 4a-d was observed. Regioselective oxidation of primary-secondary 1,6-diols 1e,f and 1,5-diols 1h,i afforded enantiomerically enriched ε-lactones 4e,f and δ-lactones 4h,i. ε-Lactones 4e,f were formed with higher enantiomeric excesses (e.e. = 85-99%). Enzymatic oxidation of primary-tertiary 1,6-diol 1g did not give lactone product.