75593-28-1Relevant academic research and scientific papers
Development of Enantiospecific Coupling of Secondary and Tertiary Boronic Esters with Aromatic Compounds
Odachowski, Marcin,Bonet, Amadeu,Essafi, Stephanie,Conti-Ramsden, Philip,Harvey, Jeremy N.,Leonori, Daniele,Aggarwal, Varinder K.
, p. 9521 - 9532 (2016/08/12)
The stereospecific cross-coupling of secondary boronic esters with sp2 electrophiles (Suzuki-Miyaura reaction) is a long-standing problem in synthesis, but progress has been achieved in specific cases using palladium catalysis. However, related couplings with tertiary boronic esters are not currently achievable. To address this general problem, we have focused on an alternative method exploiting the reactivity of a boronate complex formed between an aryl lithium and a boronic ester. We reasoned that subsequent addition of an oxidant or an electrophile would remove an electron from the aromatic ring or react in a Friedel-Crafts-type manner, respectively, generating a cationic species, which would trigger 1,2-migration of the boron substituent, creating the new C-C bond. Elimination (preceded by further oxidation in the former case) would result in rearomatization giving the coupled product stereospecifically. Initial work was examined with 2-furyllithium. Although the oxidants tested were unsuccessful, electrophiles, particularly NBS, enabled the coupling reaction to occur in good yield with a broad range of secondary and tertiary boronic esters, bearing different steric demands and functional groups (esters, azides, nitriles, alcohols, and ethers). The reaction also worked well with other electron-rich heteroaromatics and 6-membered ring aromatics provided they had donor groups in the meta position. Conditions were also found under which the B(pin)- moiety could be retained in the product, ortho to the boron substituent. This protocol, which created a new C(sp2)-C(sp3) and an adjacent C-B bond, was again applicable to a range of secondary and tertiary boronic esters. In all cases, the coupling reaction occurred with complete stereospecificity. Computational studies verified the competing processes involved and were in close agreement with the experimental observations.
AN OLEFIN POLYANION EQUIVALENT: A NEW OLEFIN SYNTHESIS FROM TRIFLONES
Hendrickson, James B.,Boudreaux, Gerald J.,Palumbo, Paul S.
, p. 4617 - 4618 (2007/10/02)
α-Trifyl-dimethylsulfone (CF3SO2CH2SO2CH3) is a reagent which allows successive polyalkylation of the two carbons with regiocontrol.The polyalkylated trifyl-sulfone then undergoes a Ramberg-Baecklund reaction with loss of triflinate anion and extrusion of SO2 to form an olefin.In synthetic terms the net structural change is equivalent to regiospecific alkylation of an olefin polyanion, =C==C=.
THE WITTIG-HORNER ROUTE TO TRI-SUBSTITUTED ALKENES: SYNTHESIS OF Z-α-BISABOLENE
Buss, Antony D.,Warren, Stuart
, p. 111 - 114 (2007/10/02)
E and Z isomers of trisubstituted alkenes may separately be prepared by the Wittig-Horner reaction.Z-α-bisabolene has been made by this route.
