Aryl-Aryl Bond Formation

Jwanro Hassan,Marc Se vignon,Christel Gozzi,Emmanuelle Schulz,and arc Lemaire*′,

Laboratoire de Catalyse et Synthe` se Organique, UMR 5622, Universite Claude ′Bernard Lyon 1, CPE, 43 Bd du 11 Novembre 1918, 69622 Villeurbanne Cedex, France, and Laboratoire de Catalyse Moleculaire, UPRESA,CNRS 8075, Institut de Chimie Mole ′culaire d’Orsay,Universite Paris-Sud, 91405 Orsay Cedex, France′

Chem. Rev. 2002, 102, 1359 1469

The first type is the Ullmann reaction.

The third type is clearly an oxidation of two C-H aromatic bonds to form a C-C bond.

The second type is closely related to the first but involves the formation of an aryl carbanion as the intermediate.

The fourth type and last one is the Pschorr reaction.

1. Aryl Aryl Bond Formation Using Copper as Reagent or Catalyst1.1. Reductive Coupling of Aromatic Halides (The Ullmann Reaction)A. Aromatic Coupling Using Stoichiometric Amount of Copper

a. Symmetrical Couplings.

b. Unsymmetrical Couplings.

B. Aromatic Coupling Using Catalytic Amounts of Copper

1.2. Coupling of Aromatics via Aryl CarbanionA. Use of Stoichiometric Amounts of Coppera. Symmetrical Couplings.

i. Coupling of Silicon Derivatives.

ii. Coupling of Tin Derivatives.

ii. Coupling of Lithium Derivatives.

B. Catalytic Amounts of Copper

a. Symmetrical Couplings.

ii. Coupling of Tin Derivatives.

b. Unsymmetrical Couplings. i. Coupling of Tin Derivatives. ii. Coupling of Boron Derivatives.

1.3. Oxidative Aromatic Coupling Using Copper Salts

A. Use of Stoichiometric Amount of Coppera. Symmetrical Couplings.

B. Use of Catalytic Amounts of Coppera. Symmetrical Couplings.

c. Oxidative Coupling with FeCl3.

4. Aromatic Coupling via Radicals (The Pschorr Reaction) Using Copper Salts

1.5. Synthesis of Oligomers and Polymers Using Copper as a Reagent

A. The Ullmann Reaction

B. Oxidative Coupling of an Activated Aryla. Using Copper as the Oxidative Reagent.

b. Using Iron as the Oxidative Reagent.

C. Chemical Polymerization Induced by Iron

Aryl-Aryl Bond Formation

Documents

Transcript of Aryl-Aryl Bond Formation

Non-Metathesis Ruthenium-Catalyzed C - C Bond Formation

6. ACTIVATION OF THE PEPTIDE BOND FORMATION · Activation of the peptide bond formation 123 6. ACTIVATION OF THE PEPTIDE BOND FORMATION 6.1 INTRODUCTION Our living world is constituted

Amide bond formation

Transition Metal Assisted Carbon Nitrogen Bond Formation ... W... · Transition Metal Assisted Carbon Nitrogen Bond Formation Reactions and Mechanisms of Formation 27 Robert W. Marshman

Transition-Metal-Free Aryl–Heteroatom Bond Formation via C ......Therefore, a practical and universal approach for diverse C− Het bond construction without TM catalyst is highly

C-C Bond Formation - Organometallic Coupling Reactions ...

Platinum-carbon bond formation by cyclometallation and ...

BOND FORMATION REACTIONS TO PHOSPHORUS USING …

Aryl−Aryl Bond Formation One Century after the Discovery of the Ullmann Reaction.pdf

Epoxide bond formation and cleavage

Visible Light Induced CC Bond Formation

Mechanism of Formation of Grignard Reagents. Kinetics of ...Whitesides et al. f Reaction of Substituted Aryl Bromides with Magnesiunt Table II. Hammctt p Values for Rcactions of Aryl

Trimethylaluminum Mediated Amide Bond Formation in a ... · PDF fileGustafsson, Pontén, Seeberger, supporting information Trimethylaluminum Mediated Amide Bond Formation in a Continuous

Aryl Aryl Bond Formation One Century after the Discovery of

Aryl Aryl Bond Formation by Transition-Metal-Catalyzed ...aether.cmi.ua.ac.be/artikels/Artikels Gitte... · metal-catalyzed aryl-aryl coupling have focused on the development of high-yielding

Palladium(IV) Catalysis High-Oxidation-State …3.2. C N Bond Formation A catalytic intramolecular aryl–nitrogen bond formation was developed for carbazole synthesis from various

Carbon-carbon Bond Formation

Recent progress in C(aryl)–C(alkyl) bond cleavage of ...

C-C Bond Formation - Harvard Universitysites.fas.harvard.edu/~chem153/lectures/week3.pdfhalides. Reactivity of aryl halide: P Ni (II) PCl Cl X n-BuMgBr (2 eq) 0.7 mol% Ph 2 Ph 2 X%

Ionic Compounds. Forming Chemical Bonds Objectives –Define chemical bond –Relate chemical bond formation to electron configuration –Describe the formation.