82276-55-9Relevant academic research and scientific papers
InIII-catalysed tandem C-C and C-O bond formation between phenols and allylic acetates
Vece, Vito,Ricci, Jeremy,Poulain-Martini, Sophie,Nava, Paola,Carissan, Yannick,Humbel, Stephane,Dunach, Elisabet
supporting information; experimental part, p. 6239 - 6248 (2010/12/29)
Indium triflate catalysed tandem allylation-intramolecular hydroalkoxylation was efficiently carried out by using 1 mol-% of the catalyst under mild conditions to afford the dihydrobenzopyran ring system (chroman-type structure) in good yields. Kinetic, mechanistic and theoretical studies are also presented. Tandem allylation-intramolecular hydroalkoxylation carried out in the presence of an indium catalyst (1 mol-%) under mild conditions provides the dihydrobenzopyranring system in good yields. Kinetic, mechanistic and theoretical studies are presented.
Synthesis of chromans via [3 + 3] cyclocoupling of phenols with allylic alcohols using a Mo/o-chloranil catalyst system
Yamamoto, Yoshihiko,Itonaga, Kouhei
scheme or table, p. 717 - 720 (2009/08/19)
(Chemical Equation Presented) The combination of a molybdenum complex (CpMoCl(CO)3 or [CpMo(CO)3]2) and o-chloranil was used as a catalyst in the [3 + 3] cyclocoupling of phenols and allylic alcohols under microwave heating conditions. Substituted chromans were selectively obtained in moderate to good isolated yields.
Clay catalyzed rearrangement of substituted allyl phenyl ethers: Synthesis of ortho-allyl phenols, chromans and coumarans
Dauben, William G.,Cogen, Jeffrey M.,Behar, Victor
, p. 3241 - 3244 (2007/10/02)
Montmorillonite clays catalyze the rearrangement of substituted allyl phenyl ethers to provide ortho-allyl phenols, chromans and coumarans under mild conditions.
Fragrance compositions of alicyclic ketone and alcohol derivatives
-
, (2008/06/13)
Alicyclic ketone and alcohol derivatives having the structure: STR1 wherein the dotted line represents a carbon-carbon double bond or a carbon-carbon single bond; wherein Z is STR2 and wherein each of R1, R2, R3, R4, and R5 is hydrogen or lower alkyl are useful as odor-modifying ingredients in perfumes and perfumed products and as flavor-modifying ingredients in foodstuffs and tobacco products. These derivatives may be prepared from substituted phenols having the structure: STR3
