Homogeneous catalytic hydrogenation reaction

The reactive nature of the hydrido complexes formed in many of the above reactions permits them to function as intermediates in homogeneous catalytic hydrogenation reactions. Thus, the reversible reaction,... 

Both heterogeneous and homogeneous catalytic hydrogenation reactions were efficiently carried out at elevated pressure in flow. Rapid diffusion of pressurized gas... 

With the recent development of zeolite catalysts that can efficiently transform methanol into synfuels, homogeneous catalysis of reaction (2) has suddenly grown in importance. Unfortunately, aside from the reports of Bradley (6), Bathke and Feder (]), and the work of Pruett (8) at Union Carbide (largely unpublished), very little is known about the homogeneous catalytic hydrogenation of CO to methanol. Two possible mechanisms for methanol formation are suggested by literature discussions of Fischer-Tropsch catalysis (9-10). These are shown in Schemes 1 and 2. 

This chapter provides a review of the progress in reaction art, reactor techniques and process technology with respect to homogeneous catalytic hydrogenation of diene-based polymers, in accordance with the homogeneous hydrogenation theme of this handbook. 

It must be emphasized that the above considerations were made in the absence of reaction. Interfacial mass transfer followed by reaction requires further consideration. The Hatta regimes classify transfer-reaction situations into infinitely slow transport compared to reaction (Hatta category A) to infinitely fast transport compared to reaction (Hatta category H) [42]. In the first case all reaction occurs at the interface and in the second all reaction occurs in the bulk fluid. Homogenous catalytic hydrogenations, carbonylations etc. require consideration of this issue. An extreme example of the severity of mass transport effects on reactivity and selectivity in hydroformylation has been provided by Chaudari [43]. Further general discussions for homogeneous catalysis can be found elsewhere [39[. 

Product in both the reactions is CH3CH2CH3. Both reactions are catalytic hydrogenations (addition of H2). (i) is heterogeneous catalytic hydrogenation and (ii) is homogeneous catalytic hydrogenation. 

For a more complete description of the principles of transition metal catalysis, a number of the excellent reviews published recently should be consulted. These include, in addition to those already cited, several reviews of rhodium (89) and palladium (90-93) chemistry, addition (94, 95) and insertion (96) reactions, homogeneous catalytic hydrogenation (97), hydride complex chemistry (98), nitrogen fixation (99), and organometallic complexes as potential synthetic reagents (100). 

Despite the potential advantages of increased rates for catalytic hydrogenation reactions, there have been few reports on achiral homogeneously catalyzed reductions of unsaturated substrates. The first example of a... 

All the forward reactions are important steps in commercial homogeneous catalytic processes. Reaction 2.2 is a step in methanol carbonylation (see Chapter 4), while reaction 2.3 is a step in the hydrogenation of an alkene with an acetamido functional group. This reaction, as we will see in Chapter 9, is... 

Where applicable, the shortsightedness principle can significantly simplify quantitative modeling, especially in networks with coupled parallel steps. Examples are olefin reactions that involve double-bond migration in parallel to conversion to products, as in homogeneous catalytic hydrogenation, hydroformylation, hydro-cyanation, and hydrohalogenation [16]. 

---