Palladium-Catalyzed Alkylation of sp2 and sp3 C-H Bonds with Methylboroxine and Alkylboronic Acids: Two Distinct C-H Activation Pathways

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Palladium-Catalyzed Alkylation of sp2 and sp3 C-H Bonds with Methylboroxine and Alkylboronic Acids: Two Distinct C-H Activation Pathways Xiao Cheng, Charles Goodhue, and Jin-Quan Yu Brandeis University J. Am. Chem. Soc. ASAP ilu Jayasuriya @ Wipf Group 1 10/20/2006

C-H Functionalization C-H most fundamental linkage in organic chemistry Resistant to selective chemical transformations Bond Dissociation C-H is large H-CH 3 105 kcałmol H-C 6 H 5 110 kcałmol C-H activation disconnection strategy that will provide alternatives to conventional methods---in a single preparative step For Reviews see: Dyker, G. Angew. Chem. Int. Ed. 1999, 38, 1698-1712. Pfeffer, M.; Ritleng, V. Chem. Rev. 2002, 102, 1731-1769. ilu Jayasuriya @ Wipf Group 2 10/20/2006

1963-Kleiman and Dubeck Pioneering Studies 1965-Chatt and Davidson Kleiman, J.P.; Dubeck, M. J. Am. Chem. Soc. 1963, 1544. Chatt, J.M.; Davidson, M. J. Am. Chem. Soc. 1965, 843. Stoichiometric cleavage of C-H bond: Chem Rev. 1997, 97, 2879. ilu Jayasuriya @ Wipf Group 3 10/20/2006

Catalytic C-H activation 1989-Jordan + Cp 2 Zr H 2 1 atm, CH 2 Cl 2 1992-Moore + R CO, 150 psi 150 0 C O R + O R R =C 4 H 9 Ru 3 (CO) 2 (13:1) 1993-Murai Taylor, D.; Jordan, R. J. Am. Chem. Soc. 1989, 111, 778-779.; Moore et al. J. Am. Chem. Soc. 1992, 114, 5888. Murai, S.; Kakiuchi, S.; Sekine, S.; Tanaka, A,; Kamatani, M.; Chatani,. ature, 1993, 366, 529. ilu Jayasuriya @ Wipf Group 4 10/20/2006

Directed C-H activation is favored by a σ- chelating heteroatom that is conjugated to the aryl rings Direct coupling of C-H bonds with organometallic reagents Many recent examples of pyridine and carbonyl directed arylation of sp 2 and sp 3 C-H bonds Kakiuchi, F.; Kan, S.; Igi, K.; Chatani,.; Murai, S. J. Am. Chem. Soc. 2003, 125, 1698. ilu Jayasuriya @ Wipf Group 5 10/20/2006

Alkylation using Organotin Chen, X.; Li, J-J.; Hao, X-S.; Goodhue, C. E.; Yu, Jin-Quan J. Am. Chem. Soc. 2006, 128, 78-79. ilu Jayasuriya @ Wipf Group 6 10/20/2006

Pd-catalyzed Alkylation of Aryl C-H Bonds on-π-conjugated chelation assisted catalytic C-H activation are still rare but is possible in this instance Various primary alkyl tin reagents were used Drawback Long reaction time-batchwise addition ==> still drawbacks---batchwise addition, toxicity of Organotin reagents ilu Jayasuriya @ Wipf Group 7 10/20/2006

Alkylation with alkylboroxine and boronic acids C-H activation/c-c coupling using boronic acids is plausible Challenge: Pd(II) catalyzed homocoupling of organometallic reagent is faster than C-H activation The palladacycle formed from the C-H activation step can also catalyze homocoupling (transmetalation and reductive elimination must be faster) Kirchhoff, J. H.; etherton, M. R.; Hills, I. D.; Fu, G.C. J. Am. Chem. Soc. 2002, 124, 13662. ilu Jayasuriya @ Wipf Group 8 10/20/2006

Methylation of sp 2 C-H Py 2 equiv. B O O B B O Py 10 mol% Pd(OAc) 2 Cu(OAc) 2 Benzoquinone CH 2 Cl 2, Air 100 o C, 24h Me ilu Jayasuriya @ Wipf Group 9 10/20/2006

Methylation of sp 3 C-H 2 equiv. B O O B B O 10 mol% Pd(OAc) 2 Cu(OAc) 2 Benzoquinone HOAc, O 2 100 o C, 24h Me no alkylation products were observed with ethyl or butylboroxine ilu Jayasuriya @ Wipf Group 10 10/20/2006

Alkylation of C-H Bonds Py 2 eqiv. EtB(OH) 2 10 mol% Pd(OAc) 2 Cu(OAc) 2 Benzoquinone CH 2 Cl 2, Air 100 o C, 24h sm recovered Pd OAc 2 EtB(OH) 2 CH 2 Cl 2, Air 100 o C, 24h Me 5% Indication that transmetalation is problematic Optimization: Solvents: t-amyl alcohol, t-butyl alcohol, DMF, Dioxane, Toluene, HOAc Oxidants & Additives: Ag 2 O, Cu(OAc) 2, H 2 O, K 2 CO 3, KOAc, Cu 2 O, MnO 2, AgOAc, Ag 2 CO 3 ilu Jayasuriya @ Wipf Group 11 10/20/2006

Alkylation of C-H Bonds Py 3 eqiv. EtB(OH) 2 10 mol% Pd(OAc) 2 Ag 2 O Benzoquinone t-amyloh, Air 100 o C, 6h Et couples both sp 2 and sp 3 C-H bonds Ag 2 O plays a dual role as an efficient promoter for the transmetalation as well as a co-oxidant. benzoquinone promotes reductive elimination no dialkylated products were observed ilu Jayasuriya @ Wipf Group 12 10/20/2006

Mechanistic Insights Kinetic Isotope Effect: changes in rate observed when a 1 H is replaced by a 2 D in the same reaction. This change can affect the rate of the reaction only if H(or D) is involved in the rate determining step K H/D for cyclopallidation with MeB(OH) 2 is 7.3. Dimeric palladacycle reacts only with boronic acids under the optimized conditions, not the conditions used for methylboroxine. K H/D for methylation with MeB(OH) 2 is 6.7 and with methylboroxine is 3.0. Intermolecular KIE with MeB(OH) 2 is 4.0 and with methylboroxine is 3.5. suggests that C-H cleavage is the rate determining step in both reactions ilu Jayasuriya @ Wipf Group 13 10/20/2006

C-H Activation Pathways Boronic Acids Py cyclopallidation Pd OAc 2 MeB(OH) 2 Ag 2 O benzoquinone Me Methylboroxine ilu Jayasuriya @ Wipf Group 14 10/20/2006

Summary One pot procedure for the coupling of sp 2 and sp 3 C-H bonds with alkylboroxines and alkylboronic acids has been developed using Pd(II). Mechanistic studies utilizing kinetic isotope effects indicate two distinct pathways for C-H activation. Expand scope by using other directing groups and organometallic reagents Many reports focused on investigations on the scope and limitations of these types of reactions, only a few cases of applications towards natural products. ilu Jayasuriya @ Wipf Group 15 10/20/2006

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