72488-05-2Relevant academic research and scientific papers
Influence of Some Factors on the Progress of a New Reaction in the Chemistry of Organoaluminum Compounds
Ishmuratov, G. Yu.,Vydrina, V. A.,Yakovleva, M. P.
, p. 1353 - 1358 (2020/10/02)
Abstract: We earlier discovered a new reaction in the chemistry of organoaluminum compounds (OACs), specifically, the formation of O-isobutyl acetals on low-temperature (–70°C) treatment of seven-membered lactones with a double (or more) molar amount of diisobutylaluminum hydride (DIBAH) in methylene chloride. To assess the boundaries for the formation of isobutyl acetals depending on the ring size, we involved in the low-temperature hydride reduction six-, eight-, and thirteen-membered lactones. To determine how the scope of the new reaction depends on the nature of the organoaluminum reagent, we tested triisobutylaluminum (TIBA). To determine how the formation of isobutyl acetals on low-temperature (–70°C) reduction with excess DIBAH in CH2Cl2 depends on whether the starting ester is cyclic or acyclic and, if the former is the case, on the ring size in the ester, we used the acyclic methyl octadecanoate as the starting compound. It was found that the new reaction in the chemistry of AOC with DIBAH as the reducer is characteristic only of seven-membered lactones and atypical of acyclic methyl octadecanoate and ricinoleate (i.e. acids with the carbon chain length more than 6).
A new strategy for efficient synthesis of medium and large ring lactones without high dilution or slow addition
Zhao, Wanxiang,Li, Zigang,Sun, Jianwei
supporting information, p. 4680 - 4683 (2013/05/09)
We have developed an efficient method for medium and large ring lactone synthesis by a conceptually different ring-expansion strategy. The design of an unprecedented ring conjunction mode of oxetene, combined with the appropriate choice of a Lewis acid promoter and an additive, constitutes the key components of the new process. Enabled by this new approach, the reaction does not require high dilution or slow addition.
Studies on the SmI2-Promoted Pinacol-Type Cyclization: Synthesis of the Hexahydroazepine Ring of Balanol
Riber, Ditte,Hazell, Rita,Skrydstrup, Troels
, p. 5382 - 5390 (2007/10/03)
The efficiency of the samarium(II) iodide induced pinacol-type coupling for the construction of seven-membered cyclic amino alcohols has been investigated. With the acyclic carbonylhydrazones 6 and 16, good yields of the hexahydroazepines 22 and 23 were obtained (56-57%) with high trans-selectivity (= 10:1), which compares well with similar reactions generating the corresponding five-and six-membered carbocycles (Fallis, A. G.; Sturino, C. F. J. Am. Chem. Soc. 1994, 116, 7447). It is essential for ring formation that the strongly electron-donating ligand, hexamethylphosphoramide, be present, as in its absense intermolecular pinacol coupling forming the diols 27-30 is the dominant reaction. Hence, the role for HMPA appears not only to increase the rate of electron transfer but also to modulate rate constants for the subsequent reactions (cyclization and pinacol coupling) of the intermediate ketyl. This ring forming reaction has been applied to the construction of the fully functionalized hexahydroazepine ring of the PKC inhibitor, balanol. Initial attempts to develop an asymmetric version of this reaction indicate the use of chiral ligands based on the structure of HMPA.
An Alternate Synthesis of the Capsaicinoids
Kaga, Harumi,Goto, Kouhei,Fukuda, Takashi,Orito, Kazuhiko
, p. 946 - 948 (2007/10/02)
Five capsaicinoids, the pungent ingredients of hot peppers, have been efficiently synthesized by a method involving the Wittig reaction between isobutyl triphenylphosphorane and the appropriate lactols (3), followed by the nitrous acid-induced isomerization of the resultant (Z)-olefins (4) to (E)-olefins (5).
