TPPTS catalysts

Figure 5.15. Deactivation Mechanism of Rh -TPPTS Catalyst (Ar = S-CytLtSOsNa)...

Water-soluble complexes constitute an important class of rhodium catalysts as they permit hydrogenation using either molecular hydrogen or transfer hydrogenation with formic acid or propan-2-ol. The advantages of these catalysts are that they combine high reactivity and selectivity with an ability to perform the reactions in a biphasic system. This allows the product to be kept separate from the catalyst and allows for an ease of work-up and cost-effective catalyst recycling. The water-soluble Rh-TPPTS catalysts can easily be prepared in situ from the reaction of [RhCl(COD)]2 with the sulfonated phosphine (Fig. 15.4) in water [17]. 

It has been shown previously how water-soluble rhodium Rh-TPPTS catalysts allow for efficient aldehyde reduction, although chemoselectivity favors the olefmic bond in the case of unsaturated aldehydes [17]. The analogous ruthenium complex shows selectivity towards the unsaturated alcohol in the case of crotonaldehyde and cinnamaldehyde [31]. 

As mentioned earlier, in the Ruhrchemie-Rhone Poulenc process for propene hydroformylation the pH of the aqueous phase is kept between 5 and 6. This seems to be an optimum in order to avoid acid- and base-catalyzed side reactions of aldehydes and degradation of TPPTS. Nevertheless, it has been observed in this [93] and in many other cases [38,94-96,104,128,131] that the [RhH(CO)(P)3] (P = water-soluble phosphine) catalysts work more actively at higher pH. This is unusual for a reaction in which (seemingly) no charged species are involved. For example, in 1-octene hydroformylation with [ RhCl(COD) 2] + TPPTS catalyst in a biphasic medium the rates increased by two- to five-fold when the pH was changed from 7 to 10 [93,96]. In the same detailed kinetic studies [93,96] it was also established that the rate of 1-octene hydroformylation was a significantly different function of reaction parameters such as catalyst concentration, CO and hydrogen pressure at pH 7 than at pH 10. 

Scheme 6.11) [30,31]- The catalyst was prepared from [PdCU] and the phosphonato-phosphine Ph2P-C6H4-PO(ONa)2 in water/ethyleneglycol and a mixture of NaOAc and Na2C03 served as base. Similar results were obtained with the Pd/TPPTS catalyst in a biphasic reaction mixture. 

A detailed study on the catalytic use of Pd/TPPTS catalyst in aqueous Sonogashira couplings revealed, that it is possible to obtain unsymmetrical diynes with moderate to good yields in aqueous methanol, with Cul as promoter and Et2NH as base (Scheme 6.18) [44]. The same authors describe a short synthesis of Eutypine, which is an antibacterial substance isolated from the culture medium of Eutypa lata. The fungus E. lata is held responsible for a vinyard disease known as eutyposis, so obviously this synthesis is of great interest. 

Intramolecular hydroxypalladation of 1,6-enynes is catalyzed by the [PdCUJ/TPPTS catalyst in aqueous media. Such hydroxylations/cyclizations yielded (hydroxyaryl)tetrahydrofurans or (hydroxyaryl)cyclopentanes with good to moderate yields (Scheme 6.31) [68]. Although the reactions work well with no added base, an active role of a [Pd(H)(OH)L2] species is supposed. 

Hydrogenation of unsaturated carboxylic acids, such as acrylic, methacryUc, maleic, fumaric, cinnamic etc. acids was studied in aqueous solutions with a RhCU/TPPTS catalyst in the presence of p-CD and permethylated P-cyclodextrin [7]. In general, cyclodextrins caused an acceleration of these reactions. It is hard to make firm conclusions with regard the nature of this effect, since the catalyst itself is rather undefined (probably a phosphine-stabilized colloidal rhodium suspension, see 3.1.2) moreover the interaction of the substrates with the cyclodextrins was not studied separately. 

Decene was hydrocarboxylated with a [PdClaj/TPPTS catalyst in acidic aqueous solutions (pH adjusted to 1.8) in the presence of various chemically modified cyclodextrins (Scheme 10.11) [18]. As in most cases, the best results were obtained with DiOMe-P-CD. In an interesting series of reactions 1-decene was hydrocarboxylated in 50 50 mixtures with other compounds. Although all additives decreased somewhat the rate of 1-decene hydroformylation, the order of this inhibitory effect was 1,3,5-trimethylbenzene < cumene < undecanoic acid, which corresponds to the order of the increasing stability of the inclusion complexes of additives with p-CD, at least for 1,3,5-trimethylbenzene (60 M ) and cumene (1200 M ). These results clearly show the possible effect of competition of the various components in the reaction mixture for the cyclodextrin. 

Hydroformylation of Other Lower Olefins and Dienes - Lower olefins such as 1-butene or 1,3-butadiene are hydroformylated with acceptable rates using Rh/tppts catalysts according to the RCH/RP process. Hoechst AG Werk Ruhrchemie has developed an attractive new process350 for the hydroformylation of raffinate II, a mixture of 1-butene, cis- and /rbutane derived from the C4 stream of naphtha crackers (after removal of 1,3-butadiene... 

Hydroformylation of Mid Range Olefins - Rhodium/tppts catalysts exhibit low catalytic activity in the hydroformylation of mid range olefins (C5-Cg) in a two phase system due to the much lower solubility of such olefins in water. In the Rh/tppts catalysed biphasic hydroformylation of 1-hexene, for example the conversion is only 11-22% with a n/i ratio of aldehydes of 98/2.353,373 The rate of 1-hexene hydroformylation catalysed by Rh/tppts increased by a factor 2.3 when subjected to ultrasound (35 kHz) and high stirring rates.360,361... 

A relatively weak rate enhancement was observed in the biphasic hydroformylation of 1-octene using Rh/tppts catalysts in the presence of cosolvents such as ethanol to enhance the solubility of the olefin in the aqueous phase and with addition of buffers (Na2C03/NaHC03) to eliminate side reactions such as the formation of acetals.31,365,366 Similarly, addition of ethanol improved the yields in the hydroformylation of 1-octene catalysed by Rh2(p-S-tBu)2(CO)2(tppts)2 species in an aqueous/organic two phase system.367 However, the high selectivity to linear aldehyde observed for neat olefin in the biphasic system (97%) decreased (to 83%) in the presence of the cosolvent.367... 

Methyl esters of co-alkenecarboxylic acids were hydroformylated to give the corresponding aldehydes (Figure 7) using Rh/tppts catalysts at 120°C, 100 bar CO/H2 and a rhodium concentration of 500 ppm in an aqueous/organic (2/1) two phase system.417... 

Attempted reductive carbonylation of bromobenzene with CO/H2 or with CO/HCOONa in the presence of a Pd/tppts catalyst failed to afford any benzaldehyde 464... 

Substituted benzyl chlorides were carbonylated using a Pd/tppts catalyst in aqueous/organic two phase systems under basic reaction conditions to afford the sodium salts of the corresponding phenylacetic acids. After acidification the phenylacetic acid dissolved in the organic phase and could be readily separated from the Pd/tppts catalyst contained in the aqueous phase (Figure 12) 466-468 TOFs up to 21 h 1 (turnover number, TON=165) and phenylacetic acid yields up to 94% were obtained at 70°C, 1 bar CO, tppts/Pd=10, NaOH/substrate=3/2 in an aqueous/toluene (1/1) two phase system in a batchwise procedure.466 The TOFs were improved to a maximum of 135 h 1 (TON=1560) in a continuous operation mode. Palladium catalysts modified with binas (Table 2 25) exhibited low catalytic activity (TONs up to 140) in the carbonylation of benzyl chloride 466 In strongly acidic media (pH=l) the Pd/25 catalyst was active and remained stable during the reaction which contrasts with Pd/tppts where palladium black was observed. However, the catalyst was completely deactivated after three cycles.466... 

Ir/tppts catalysts exhibit almost the same selectivity as Ru/tppts in the hydrogenation of a,p-unsaturated aldehydes albeit with approximately 70 times lower rates.485 In sharp contrast to the ruthenium and iridium based tppts catalysts, RhJ tppts complexes catalyse the chemoselective hydrogenation of a,fl-unsaturated aldehydes to the corresponding saturated aldehydes (Figure 14, III).54-485... 

Rh/tppts catalysts in the presence of cyclodextrins constitute CPTC systems which are active in the hydroformylation oT various water-insoluble olefins.566,567,570 For example, 1-decene was biphasically hydroformylated with... 

---