Coupling Reactions with Alkyl Halides. Lizzie O Bryan Literature Seminar January 31, 2008
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1 Recent Advances in Nickel Catalyzed Cross Coupling Reactions with Alkyl Halides Lizzie Bryan Literature Seminar January 31, 2008

2 Transitions Metal Catalyzed Cross Coupling Reactions Extensively used for aryl-aryl, aryl-alkenyl, alkenyl-alkenyl couplings High functional group compatibility Limited use of alkyl electrophiles Cross-Coupling Reactions: A Practical Guide (Ed.: N. Miyaura), Topics in Current Chemistry Series 219; Springer-Verlag, New York, 2002.; Metal-Catalyzed Cross-Coupling Reactions, (Eds.: A. de Meijere, F. Diederich), Wiley-VCH, New York, 2004.

3 Cross Coupling Reactions between sp 3 Carbons Wurtz Reaction: rganomagnesium or organolithium reagents: R M R' X R' R M=Li,MgX cat. Cu I R M R' X R' R M=Li,MgX rganocuprates: Lipshutz, B. H.; Sengupta, S. rg. React. 1992, 41, Comprehensive rganic Synthesis, Vol. 3 (Eds.: B. M. Trost, I. Fleming), Pergamon Press. xford 1991,

4 Transition Metal Catalysis for the Cross Coupling of sp 3 Carbons The efficient formation of C(sp 3 )-C(sp 3 ) bonds from organic electrophiles and mild nucleophiles compatible with a wide range of functional groups represents one of the subjects remaining to be solved in transition metal catalyzed synthetic organometallic chemisty. -Cardenas C M' X C ML n C C X=halide,sulfonate;M'=Li,Mg,Zn,Al,Sn,B,Si;M=Ni,Pd,etc. Cardenás, D. J. Angew. Chem. Int. Ed. 2003, 42,

5 Mechanism of Transition Metal Catalyzed Cross Coupling Reactions Slow oxidative addition β-hydride elimination Frisch, A. C.; Beller, M. Angew. Chem. Int. Ed. 2005, 44, Zhou, J.; Fu, G. C. J. Am. Chem. Soc. 2003, 125,

6 utline Alkyl-alkyl/aryl l l/ l cross couplings of alkyl l halides Asymmetric cross coupling reactions Cascade reactions Conclusions

7 Pioneering Work by Suzuki R I R' B Pd(PPh 3 3) 4 R R' K 3 P 4 / dioxane Ishiyama, T.; Abe, S.; Miyaura, N.; Suzuki, A. Chem. Lett. 1992,

8 Knochel: Alkyl-Alkyl Negishi Couplings Devasagayaraj, A.; Studemann, T.; Knochel, P. Angew. Chem. Int. Ed. 1995, 34, Giovanninni, R.; Studemann, T.; Devasagayaraj, A.; Dussin, G.; Knochel, P. J. rg. Chem. 1999, 64,

9 Proposed Mechanism of Ni-Catalyzed Alkyl-Alkyl Negishi Reactions R' R' reductive R' R 2 Zn elimination Ni X Ni R R [NiL 2 ] [Ni(acac) 2 ] R' R' R 2 Zn 2 R' X Ni R transmetallation ZnX Devasagayaraj, A.; Studemann, T.; Knochel, P. Angew. Chem. Int. Ed. 1995, 34, Giovanninni, R.; Studemann, T.; Devasagayaraj, A.; Dussin, G.; Knochel, P. J. rg. Chem. 1999, 64,

10 Substrate Scope for Alkyl-Alkyl Negishi Reactions Devasagayaraj, A.; Studemann, T.; Knochel, P. Angew. Chem. Int. Ed. 1995, 34, Giovanninni, R.; Studemann, T.; Devasagayaraj, A.; Dussin, G.; Knochel, P. J. rg. Chem. 1999, 64,

11 Extension of Knochel s Methodology Giovanninni, R.; Studemann, T.; Dussin, G.; Knochel, P. Angew. Chem. Int. Ed. 1998, 37, Giovanninni, R.; Studemann, T.; Devasagayaraj, A.; Dussin, G.; Knochel, P. J. rg. Chem. 1999, 64,

12 Extension of Knochel s Methodology Jensen, A. E.; Knochel, P. J. rg. Chem. 2002, 67, ; Giovanninni, R.; Knochel, P. J. Am. Chem. Soc. 1998, 120, ; Piber, M.; Jensen, A. E.; Rottlander, M.; Knochel, P. rg. Lett. 1999, 1,

13 Kambe: Alkyl-Alkyl Kumada Coupling Reactions Cross coupling of primary alkyl halides and grignard reagents Alkyl fluorides can also be used as coupling partners cat. NiCl 2 or CuCl 2 R F R' MgX R R' Terao, J.; Ikumi, A.; Kuniyasu, H.; Kambe, N. J. Am. Chem. Soc. 2003, 125, Terao, J.; Watanabe, H.; Kuniyasu, H.; Kambe, N. J. Am. Chem. Soc. 2002, 124,

14 Substrate Scope for Alkyl-Alkyl Kumada Reactions Entry R X R' MgX 1,3-butadiene (mol %) % Yield 1 n C 10 H 21 Br n Bu MgCl Br Br n Bu MgCl Ph Ts Et MgCl n ct Br MgCl n ct Cl 6 n ct F n Bu MgCl n Pr MgCl Terao, J.; Ikumi, A.; Kuniyasu, H.; Kambe, N. J. Am. Chem. Soc. 2003, 125, Terao, J.; Watanabe, H.; Kuniyasu, H.; Kambe, N. J. Am. Chem. Soc. 2002, 124,

15 Mechanistic Studies Rate of reactivity: Br > F > Cl NiCl 2 CuCl 2 n-c 8 H 17 Cl 1.5 equiv n-c 13 H 28 0% 0% n-c 5 H equiv MgBr NiCl 2 or CuCl 2 (3 mol %), 1,3-butadiene n-c 9 H 19 F 1.5 equiv THF, rt, 30 min n-c 14 H 30 8% 16% n-c 10 H 21 Br 1.5 equiv n-c 15 H 32 39% 40% Investigation of radical pathway Ph Ph F NiCl 2, 1,3-butadiene THF, rt, 6 h Ph Ph n-pr 72% yield n Pr MgCl n-pr Ph Ph not formed Terao, J.; Ikumi, A.; Kuniyasu, H.; Kambe, N. J. Am. Chem. Soc. 2003, 125, Terao, J.; Watanabe, H.; Kuniyasu, H.; Kambe, N. J. Am. Chem. Soc. 2002, 124,

16 Proposed Mechanism of Ni-Catalyzed Alkyl-Alkyl Kumada Reactions 0 Ni 0 L n Ni R' MgX R' Ni Mg + X RCH 2 R' R' Ni RCH 2 X R Terao, J.; Ikumi, A.; Kuniyasu, H.; Kambe, N. J. Am. Chem. Soc. 2003, 125,

17 Extension of Kambe s Methodology Changing additive allows dialkyl zincs to be used in reaction Higher yields with alkyl fluorides Terao, J.; Todo, H.; Watanabe, H.; Ikumi, A.; Kambe, N. Angew. Chem. Int. Ed. 2004, 43,

18 Fu: Negishi Cross Couplings with Secondary Alkyl Halides entry R X YZn R ' %yield 1 TsN Br IZn Me Me 66 2 Br BrZn Ph 62 3 Et Et I BrZn 3 Et 62 4 Ph I BrZn 74 5 N Br BrZn Ph 65 Zhou, J.; Fu, G. C. J. Am. Chem. Soc. 2003, 125,

19 Fu: Suzuki Cross Couplings with Secondary Alkyl Halides Saito, B.; Fu, G. C. J. Am. Chem. Soc. 2007, 129,

20 Vicic: Mechanistic Studies on Alkyl-Alkyl Cross Coupling Reactions Anderson, T. J.; Jones, G. D.; Vicic, D.A. J. Am. Chem. Soc. 2004, 126,

21 Mechanistic Studies on Alkyl-Alkyl Cross Coupling Reactions Proposed radical mechanism: I (tpy)ni CH 3 I (tpy)ni CH 3 I (tpy)ni CH 3 (tpy)ni I CH 3 CH 3 CH 3 Anderson, T. J.; Jones, G. D.; Vicic, D.A. J. Am. Chem. Soc. 2004, 126,

22 Mechanistic Studies on Alkyl-Alkyl Cross Coupling Reactions Jones, G. D. et. al. J. Am. Chem. Soc. 2006, 128, Jones, G. D.; McFarland, C.; Anderson, T. J.; Vicic, D. A.; Chem. Commun. 2005,

23 Mechanistic Studies on Alkyl-Alkyl Cross Coupling Reactions Investigation of (tpy)ni-ch 3 formation: Jones, G. D. et. al. J. Am. Chem. Soc. 2006, 128,

24 Mechanistic Studies on Alkyl-Alkyl Cross Coupling Reactions Labeling studies: rganic based radical by EPR and DFT studies Jones, G. D. et. al. J. Am. Chem. Soc. 2006, 128, Jones, G. D.; McFarland, C.; Anderson, T. J.; Vicic, D. A.; Chem. Commun. 2005,

25 Revised Mechanism for Ni-Catalyzed Alkyl-Alkyl Cross Coupling Reactions N N Ni R I N N I- Ni R N N RZn-Br R N N Ni I N N Ni I - R N N Jones, G. D. et. al. J. Am. Chem. Soc. 2006, 128,

26 Fu: Ni-catalyzed Alkyl-Aryl Cross Coupling Reactions with Secondary Alkyl Halides Suzuki: Hiyama: Stille:

27 Suzuki Cross Couplings of Unactivated Secondary Alkyl Halides entry R X (H) 2 B Ar % yield entry R X (H) 2 B Ar % yield 1 Me Me Br (H) 2 B Me 68 4 Br N 67 (H) 2 B Me 2 Br (H) 2 B 44 5 Br (H) 2 B S 63 CN 3 Br TBS (H) 2 B CF Me Me I (H) 2 B n-hex 63 Zhou, J.; Fu, G. C. J. Am. Chem. Soc. 2004, 126,

28 Suzuki Cross Couplings of Unactivated Secondary Alkyl Halides Revisited entry R X (H) 2 B Ar % yield 1 Bn Me Br (H) 2 B 85 Cl 2 TsN Br (H) 2 B t-bu 66 3 Me Cl Me (H) 2 B Me 74 4 Me 6 Cl (H) 2 B Me 82 Zhou, J.; Fu, G. C. J. Am. Chem. Soc. 2004, 126,

29 Hiyama Cross Couplings of Unactivated Secondary Alkyl Halides Powell, D. A.; Fu, G. C. J. Am. Chem. Soc. 2004, 126,

30 Hiyama Cross Couplings of Unactivated Secondary Alkyl Halides Revisited Potential for asymmetric Hiyama reactions Higher yields CBzN Br F 3 Si cat. NiX 2 glyme cat. ligand CsF (3.8 equiv) DMA, 60 o C CBzN 6.5% NiBr 2, 7.5% bathophenanthroline, 63% 10% NiCl 2, 15% norephedrine, 82% Strotman, N. A.; Sommer, S.; Fu, G. C. Angew. Chem. Int. Ed. 2007, 46,

31 Substrate Scope for Hiyama Cross Couplings of Secondary Alkyl Halides Strotman, N. A.; Sommer, S.; Fu, G. C. Angew. Chem. Int. Ed. 2007, 46,

32 Stille Cross Couplings with Unactivated Secondary Alkyl Halides Uses monoorganotin reagents (R-SnX 3 ) 10% Ni Cl 2 15% 2,2'-bipyridine R X Cl 3Sn Ar R Ar Kt-Bu (7 equiv) X=Br,I 1.5 equiv t-buh: i-buh (7:3) R=1 o or 2 o alkyl 60 o C Can convert readily available triorganotin compounds into trichlorotin reagents Powell, D. A.; Maki, T.; Fu, G. C. J. Am. Chem. Soc. 2005, 127,

33 Substrate Scope of Stille Cross Couplings with Unactivated Secondary Alkyl Halides Powell, D. A.; Maki, T.; Fu, G. C. J. Am. Chem. Soc. 2005, 127,

34 Mechanistic Studies on Alkyl-Aryl Cross Coupling Reactions Hiyama and Suzuki: Exo product formed exclusively Stille: Diastereoselectivity independent of ligand Same diastereomeric ratios observed in radical cyclizations Powell, D. A.; Maki, T.; Fu, G. C. J. Am. Chem. Soc. 2005, 127, ; Zhou, J.; Fu, G. C. J. Am. Chem. Soc. 2004, 126, ; Powell, D. A.; Fu, G. C. J. Am. Chem. Soc. 2004, 126, ; Echavarren, A. M. Angew. Chem. Int. Ed. 2005, 44,

35 Asymmetric Examples of Cross Couplings with Secondary Alkyl Halides Bn N Ph Br R R' 2 Zn cat. NiX 2 cat. (R)-(i-Pr)-Pybox (i Pybox 0 o C Bn N Ph R' R

36 Cross Couplings of Secondary α-bromo Amides Racemic starting material Selective for coupling of α-bromo amide in the presence of other unactivated halides Amide is easily converted to other useful functional groups: Fischer, C.; Fu, G. C. J. Am. Chem. Soc. 2005, 127,

37 Substrate Scope for Cross Couplings of Secondary α-bromo Amides Fischer, C.; Fu, G. C. J. Am. Chem. Soc. 2005, 127,

38 Cross Coupling of Secondary Benzylic Halides Racemic starting material Selective for benzylic halide in the presence of an aryl halide Chiral indane products are useful intermediates in total synthesis Arp, F..; Fu, G. C. J. Am. Chem. Soc. 2005, 127,

39 Substrate Scope for Cross Couplings of Secondary Benzylic Halides Me Hex 4 Cl n-bu 89% yield 96% ee CN 69% yield 94% ee Bn 72% yield 98% ee Me X = Br, 64% yield, 91% ee X=Cl,56% yield, 91% ee 63% yield 75% ee Arp, F..; Fu, G. C. J. Am. Chem. Soc. 2005, 127,

40 Application to Total Synthesis (R)-3-ethyl indanone was used as an intermediate in the synthesis of LG Et 1. (R)-p-tol-BINAP, p CuCl, Nat-Bu PMHS, toluene, RT 2. NaH/EtH, reflux H PPA 70 o C, 3h 89% over 2 steps 83% Et 3 steps, 86% ee 74% overall yield Can be prepared via asymmetric cross coupling reactions in higher enantiomeric excess. Br Et ZnBr 10% NiBr 2 diglyme 13% (R)-(i-Pr)-Pybox DMA, 0 o C Et 92% ee 56% yield Arp, F..; Fu, G. C. J. Am. Chem. Soc. 2005, 127, ; Hamann, L. G.; Mani, N. S.; Davis, R. L.; Wang, X.-N.; Marschke, K. B.; Jones, T. K. J. Med. Chem. 1999, 42, ; Mani, N. S.; Wu, M. Tetrahedron: Asymmetry 2000, 11,

41 Application to Total Synthesis Racemic trans-1,3-dimethyl indane was used as an intermediate in total synthesis of trans-trikentrin A and iso-trans-trikentrin B. Can be prepared enantioselectively using asymmetric cross coupling reactions. Arp, F..; Fu, G. C. J. Am. Chem. Soc. 2005, 127, ; MacLeod, J. K.; Monahan, L. C. Aust. J. Chem. 1990, 43, ; MacLeod, J. K.; Ward, A.; Willis, A. C. Aust. J. Chem. 1998, 51,

42 Application to Total Synthesis Previous synthesis for intermediate in the total synthesis of (+)-nuciferol and (+)-nuciferal Me I H Bn H 4 steps from trans-2-butenediol PdCl 2,(Ph 3 P) 2 (2.8 mol %), CuI (1.9 mol %), Et 3 N, ultrasonic radiation 100% Me H H Bn H 2, 5% Pd-BaS 4, MeH, rt 94% Me H H Bn ethyl vinyl ether (xs) H Hg(I)(Ac) 2 (10 mol%) 1. H 2, 5% Pd-C, EtH sealed tube, 160 o C 2weeks 71% Me Bn 2. (PPh 3 ) 3 RhCl, C 6 H 6 reflux 58% over 2 steps Me H Me Bn 9 steps from trans-2-butenediol 27% overall yield Preparation via asymmetric cross coupling reactions: Arp, F..; Fu, G. C. J. Am. Chem. Soc. 2005, 127, ; Takano, S.; Goto, E.; gasawara, K. Tet. Lett. 1982, 23, ; Takano, S et. al. Chem. Lett. 1989,

43 Cárdenas: Ni-Catalyzed Cascade Reactions with Secondary Alkyl Halides Phapale, V. B.; Buñuel, E.; García-Iglesias, M.; Cárdenas, D. J. Angew. Chem. Int. Ed. 2007, 46,

44 Substrate Scope for Cascade Reactions N N N s Bu s Bu (S)-(s-Bu)-Pybox C 2 Et C 2 Et H H H CH 3 H H H 65% 94% (97:3) 68% H H TsN Me 2 C Me 2 C 46% 83% 63% Phapale, V. B.; Buñuel, E.; García-Iglesias, M.; Cárdenas, D. J. Angew. Chem. Int. Ed. 2007, 46,

45 Evidence for a Radical Mechanism Phapale, V. B.; Buñuel, E.; García-Iglesias, M.; Cárdenas, D. J. Angew. Chem. Int. Ed. 2007, 46,

46 Proposed Mechanism for Cascade Reactions [Ni(py) 4 Cl 2 ] L 3 RZnBr R' I Z L 3 Ni I 3 R R' Z L 3 Ni II R 3 I R' Z R' Z I R' Z L 3 Ni II R I L 3 Ni III R I R' Z R' R R' Ni III L 3 I R R R' Z Z Z Phapale, V. B.; Buñuel, E.; García-Iglesias, M.; Cárdenas, D. J. Angew. Chem. Int. Ed. 2007, 46,

47 Conclusions Primary and secondary alkyl halides can be utilized in Ni-catalyzed cross coupling reactions Fu and coworkers have shown that asymmetric cross couplings can be performed with activated alkyl halides Future directions: Expanded scope and functional group tolerance Asymmetric cross coupling reactions with unactivated alkyl halides Cross coupling reactions with tertiary ti alkyl l halides

48 Acknowledgements Prof. Michael T. Crimmins Crimmins Group: Dr. Anita Mattson Dr. Christie Stauffer Dee Jacobs Mariam Shamszad Matt Haley Jay Stevens Adam Azman Anne-Marie Dechert Mark Mans Tim Martin Colin Hughes Phil Williams

49 Formation of Bis(π-allyl)Ni complex

50 Mechanism of Kumada Reactions with 1,3,8,10 Tetraene Derivatives X X Ni 0 L n Ni X R'-M R' Ni M + RCH 2 R' R' Ni X RCH 2 X R

51 EPR Results A: EPR of monomethyl complex at RT B: EPR of monomethyl complex at 77K

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