New ruthenium catalysts for asymmetric hydrogenation

Diaz Valenzuela, Maria Belen

January 2007

A review on catalytic asymmetric hydrogenation of C=O double bonds is presented in the first chapter. Noyori’s pioneering research on ruthenium complexes containing both phosphine and diamine ligands using [i superscript]PrOH and [t superscript]BuOK is described, this system gave impressive highly chemeo-selectivity for C=O bonds and extremely high enantioselectivity for a range of acetophenone derivatives. Numerous groups have been inspired by Noyori’s catalyst of the type RuCl₂(chiraldiphosphine)(chiraldiamine), these systems often give excellent results for acetophenone. However, these catalysts have limitations, they are found to be either inactive or unselective for hydrogenation of tetralones, dialkylketones, bulky ketones, some heterocyclic ketones and imines prove difficult using this system. In this project, we are searching for a new catalyst for asymmetric hydrogenation of ketones that solve the difficult challenges faced when using Noyori’s [Ru(diphosphine)(diamine)Cl₂] catalysts system. Departing from Noyori’s type catalyst in the second chapter is described our effort to synthesise new diamines derived from amino acids and the synthesis of [Ru(diamine)(diphosphine)Cl₂] complexes. These catalysts are tested in asymmetric hydrgenation of ketones. In the next two chapters the finding of a new tridentate P N NH₂ type ligand is reported and the novel ruthenium complex containing the tridentate ligand has been synthesised and characterised by X-ray crystallography and been found to be active in the hydrogenation of a range of C=O and C=N double bonds, including the enantioselective hydrogenation of normally unreactive bulky ketones with up to 93 % ee. The last chapter explains the transfer hydrogenation activity for this new catalyst, involving a novel method of transfer hydrogenation reaction under microwave irradiation.

541.39

Catalytic asymmetric hydrogenation

Kinetics of the catalytic hydrogenation of n-heptanal with copper-chromium oxide catalyst

Flanagan, Joseph Edward, 1940-

January 1963

No description available.

Hydrogenation.

Chemical kinetics.

A study of the role of carbonate supports for rhodium catalyst in hydrogenation reactions

Yeung, Patrick Pui-Hang

08 1900

No description available.

Hydrogenation

Platinum group catalysts

The catalytic hydrogenation of some tall oil constituents

Jones, Ronald Goldin

08 1900

No description available.

Hydrogenation

Tall oil

Patterns and Pathways of Hydrogenation of Asphaltene Model Compounds

Mierau, Judah

Unknown Date

No description available.

Asphaltene

Hydrogenation

Hydrodenitrogenation

Nitrogen

Iridium Catalysed Asymmetric Hydrogenation of Pyridines

Cadu, Alban

January 2013

This thesis presents the hydrogenation of substituted pyridines using N,P-ligated iridium catalystsin homogeneous media. These iridium catalysts were developed within this research group in thepast decade. This method of hydrogenation is highly stereoselective, and in several cases good to excellent ees were obtained.The hydrogenation of substituted pyridines was studied: by screening for the catalyst giving thehighest conversion and ee, by optimising the reaction conditions and by attempting to improve existingcatalysts. New substrates were synthesised for this process, in particular alkyl substituted Nprotectedpyridines. Their reduction provided chiral piperidines, which could be used as chiralbuilding blocks once deprotected.

hydrogenation

pyridine

catalytic

Iridium

Preliminary investigation for a continuous hydrogenation of vegetable oil

Ivey, Turner Wilkins

08 1900

No description available.

Hydrogenation

Oils and fats

The feasibility of a continuous hydrogenation of cottonseed oil in a pipe system

Lester, Robert Milton

12 1900

No description available.

Cottonseed oil

Hydrogenation

Ceramic membranes of mixed ionic-electronic conductors for hydrogen separation

Guan, Jie

08 1900

No description available.

Petroleum Refining

Hydrogenation

Some transition-metal catalyzed hydrogen transfer and rearrangement reactions

Sutthivaiyakit, S.

January 1979

No description available.

541

Metal catalysed hydrogenation