C-H activation using Metal-Organic Cooperative Catalysiskanai/seminar/pdf/Lit_R_Hirano_B4.pdf ·...

C-H activation usingMetal-Organic Cooperative Catalysis

2016/2/27 B4 Hirano Ryo

Contents

3. Summary

Mechanism

Examples

2. Metal-Organic Cooperative Catalysis (MOCC)

1. Introduction

C-H activation using intramolecular Directing-Group(DG)

Ketone-α-H activation by MOCC

Contents 3

1. Introduction

C-H activation

Chem. Rev., 2015, 115 , 3468–3517

・Short-step

・Atom economical

Very strong synthetic method

・Difficult to proceed

・Difficult to distinguish C-H bonds

Directing group is effective.

First synthetically useful C-H activation

Murai et. al. Nature 1993, 366, 529-531.

C-H activation –mechanism

Oxidative addition

Olefin insertion Morokuma et. al. J. Am. Chem. Soc. 1998, 120, 12692-12693.

Reductive elimination

C-H activation –Ex 8

2. Metal-Organic Cooperative Catalysis (MOCC)

Outer directing group (1)

aldehyde-H

Possible!

Possible?

Outer directing group (2)

Possible!

Sahoo et al. Org. Lett., 2014, 16 , 5258–5261.

Concept of MOCC

C-H activation using catalytic outer DG

MOCC ex1

Bedford et al. Angew. Chem. Int. Ed. 2003, 42, 112-114.

DG is catalytic.

Work-up is not needed.

MOCC ex2

DG is catalytic.

stereoselective.

Preparation/work-up is not needed.Jin. Q. Yu et al. Science 2016, 351, 252-256.

MOCC -today’s topic

α-H (main topic)

aldehyde-H

MOCC aldehyde-H ex1

Suggs et al. J. Am. Chem. Soc. 1979, 101, 489.DG is not catalytic.

Imine formation is needed in advance.

Yield is bad.

MOCC aldehyde-H ex2

Stoichiometric amount of amine is needed.

Jun et al. Angew. Chem. Int. Ed. 2000, 39, 3070-3072.

MOCC aldehyde-H ex3

Jun et al. Eur. J. Org. Chem. 2006, 2504–2507.

DG is catalytic.

Preparation/work-up is not needed.

MOCC ketone α-H ex1

Dong et al. J. Am. Chem. Soc. 2012, 134, 13954-13957.

Substrate is limited.

Stoichiometric amount of amine is needed.

MOCC ketone α-H ex2(main topic)

DG is catalytic.

Regioselective.

Preparation/work-up is not needed. Dong et al. Science 2014, 68-72.

Usefulness of MOCC –vs. aldol- 21

α-H MOCC -Ketone substrate 22

α-H MOCC -Olefin 23

α-H MOCC –Direction group 24

α-H MOCC -Ligand 25

α-H MOCC -Mechanistic insight

Oxidative addition occurs.

Olefin insertion occurs as expected.

α-H MOCC -Mechanism

How does reaction proceeds?

Wang et al. J. Am. Chem. Soc. 2015, 137, 6279-6291.

Reaction mechanism was investigated by DFT computations.

α-H MOCC –Mechanism : SM of catalytic cycle 28

α-H MOCC –Mechanism : oxidative addition 29

α-H MOCC –Mechanism : oxidative addition : trans-effect 30

α-H MOCC –Mechanism : insertion of olefin 31

α-H MOCC –Mechanism : reductive elimination 32

α-H MOCC –Mechanism : total steps 33

α-H MOCC –Mechanism : energy profiles (1) 34

α-H MOCC –Mechanism : energy profiles (2)

Reductive elimination is most difficult step.

α-H MOCC -reactivity 36

α-H MOCC –reactivity : regioselectivity

Regioselective!

α-H MOCC –reactivity : regioselectivity 38

α-H MOCC –reactivity : structure of DG

Difficulty of enamine formation and reductive elimination changes due to the structure of DG

α-H MOCC –reactivity : structure of DG 40

α-H MOCC –reactivity : structure of DG 40.5

α-H MOCC –reactivity : metal ligand 41

α-H MOCC –reactivity : metal ligand energy profiles 42

α-H MOCC –reactivity : metal ligand 43

α-H MOCC summary 44

Summary

・DG is useful to achieve regioselective, high-yield C-H activation.

・Outer DG enables chelation-assisted C-H activationto substrate that doesn’t contain DG.

・But, to achieve MOCC, one have to take account of the combination of substrate and DG,

in addition to reactant, metal, and ligand.

・Concept of MOCC is helpful for greener, shorter-step C-H activation.

C-H activation

Appendix -Outer DG Mechanism

Appendix-MOCC ex1 Mechanism

Appendix -MOCC ex2 Mechanism

C-H activation –deuterium labeling experiment

・H/D scrambling occurred among two ortho and three olefinic position.

・Product wasn’t gained.

・Not among meta and para position.

Oxidative addition and Olefin insertion occurs.

Directing is necessary for C-H bond cleavage.

Reductive elimination doesn’t occur.

C-H activation –detailed mechanism (2)

C-H activation -13C kinetic effect(1)

Murai et. al. Chem. Lett. 1996, 109-110

C-H activation -calculation

Matsubara et al. Organomatallics 2000, 19, 2318-2329

Reductive elimination is difficult.

C-H activation using Metal-Organic Cooperative Catalysiskanai/seminar/pdf/Lit_R_Hirano_B4.pdf ·...

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