114095-72-6Relevant articles and documents
Sc(OTf)3, an efficient catalyst for addition of allyltrimethysilane to aldehydes: Chemoselective addition to aldehydes in presence of ketone and in situ acylation (3-component coupling)
Aggarwal, Varinder K.,Vennall, Graham P.
, p. 1822 - 1826 (1998)
Scandium triflate (2-10 mol%) have been found to be a highly efficient catalyst for the addition of allyltrimethylsilane to both activated aromatic and aliphatic aldehydes. However, deactivated (electron rich) aromatic aldehydes gave double allylated products instead. Using a stoichiometric amount of Ac2O in the allylation reaction led directly to homoallylic acetates [in situ acylation catalysed by Sc(OTf)3] and for the first time gave high yields of adducts with moderately electron rich aromatic aldehydes.
Indium-mediated one-pot, three-component synthesis of homoallyl alcohol esters without catalysts and dehydrants
Du, Zhengyin,Li, Yanchun,Wang, Fen,Zhou, Wanwei,Wang, Jin-Xian
supporting information; experimental part, p. 1745 - 1747 (2010/05/18)
Indium-mediated one-pot esterification reaction of acyl chlorides or anhydride by using in situ-prepared homoallyl alcohols from aromatic aldehydes and allyl bromide proceeded smoothly to afford the corresponding homoallyl alcohol esters in high yields within about 1 h, which provided a simple and efficient protocol for the simultaneous allylation and esterification of aldehydes without other catalysts and dehydrants.
ARYLCYCLOPROPANE PHOTOCHEMISTRY. UNUSUAL AROMATIC SUBSTITUENT EFFECTS ON THE PHOTOCHEMICAL REARRANGEMENT OF (2-ARYLCYCLOPROPYL)METHYL ACETATES TO 1-ARYLHOMOALLYL ACETATES.
Hixson,Franke,Gere,Xing
, p. 3601 - 3610 (2007/10/02)
Irradiation of trans(2-arylcyclopropyl)methyl acetates a 4-butenyl-1-arylacetate (7a,b,d-h) via an ionic mechanism from the singlet state. Similar rearrangements occurred with exo-(1,1a,6,6a-tetrahydrocycloprop left bracket a right bracket inden-1-yl)methyl acetate and the 4-cyano derivative. Excited state reaction rate constants were determined from reactant fluorescence lifetimes and product quantum yields. It is concluded that the rate-determining step involves conversion of the initially formed aromatic excited state to a reactive cyclopropane excited state and that cyclopropane to aromatic ring charge transfer enhances this process.