Palladium thiocyanate

Palladium Thiocyanate, Pd(CNS)a, results as a brick-red precipitate on adding the requisite quantity of potassium thiocyanate to a solution of potassium chlor-palladite. It is soluble in excess of the thiocyanate,5 yielding Potassium PaUado thiocyanate,K2Pd(CNS)4, which crystallises out in red needles upon evaporation. 

Fig. 2. Dimeric form of 2-methyl allyl palladium thiocyanate. [From Tibbetts and Brown 725).]...

Fig. 2. Schematic structures of two phosphole palladium thiocyanate complexes...

The regioselective amination of 2,3-dihydrofuran with morpholine catalyzed by palladium thiocyanate diphosphine complexes (45 turnovers)102, and the regioselective addition of aniline to acrylonitrile and analogous electron-poor alkenes catalyzed by dialkylpalladium(dmpe) complexes (hundreds of turnovers)103 have recently been reported, but the scope of the reactions is limited to the specific type of alkene. 

Arsonium salts have found considerable use in analytical chemistry. One such use involves the extraction of a metal complex in aqueous solution with tetraphenyiarsonium chloride in an organic solvent. Titanium(IV) thiocyanate [35787-79-2] (157) and copper(II) thiocyanate [15192-76-4] (158) in hydrochloric acid solution have been extracted using tetraphenyiarsonium chloride in chloroform solution in this manner, and the Ti(IV) and Cu(II) thiocyanates deterrnined spectrophotometricaHy. Cobalt, palladium, tungsten, niobium, and molybdenum have been deterrnined in a similar manner. In addition to their use for the deterrnination of metals, anions such as perchlorate and perrhenate have been deterrnined as arsonium salts. Tetraphenyiarsonium permanganate is the only known insoluble salt of this anion. 

Note. The presence of metals whose salts are colourless does not influence the accuracy of the determination, except that mercury and palladium must be absent since their thiocyanates are insoluble. Salts of metals (e.g. nickel and cobalt) which are coloured must not be present to any considerable extent. Copper does not interfere, provided it does not form more than about 40 per cent of the alloy. 

Reaction of the diphosphines Ph2P(CH2) PPh2 (n = 1-3) with MCl2(PhCN)2 affords 1 1 m-complexes (Figure 3.46) [102]. (Note the use of the labile PhCN adducts if the MCl salts are used, Magnus type compounds M(P-P)2+MCl4- are formed.) Similar complexes are formed with other halides for the thiocyanates see section 3.8.6. The structures of the palladium complexes have been determined (Table 3.10) with square coordination only achieved for n = 3 with the formation of a six-membered metal-chelate ring. 

An ambidentate ligand has the choice of using two different types of donor atom. Two that have been extensively studied in their bonding to platinum and palladium are sulphoxides and thiocyanate. 

Most of the studies of ambidentate behaviour among thiocyanates concern palladium complexes a recent report [129], however, investigated Pt(bipy)(NCS)2... 

We have studied the hydrogenolysis of 2-(perfluorohexyl)ethane thiocyanate to 2-(perfluorohexyl)ethane thiol. It was discovered that perfluoroalkyl thiocyanates can be reduced to thiols and co-product hydrogen cyanide with molecular hydrogen in the presence of a carbon-supported palladium-tin catalyst. This result is surprising since it is known that palladium and other gronps 8 to 10 metal catalysts are poisoned by the product thiol, traces of hydrogen snlfide byprodnct, and the hydrogen cyanide co-product. For that reason, we characterized the catalyst to understand why it was so robust under conditions that would normally poison snch a catalyst. 

It is apparent that a new synthetic methodology, preferably catalytic, is needed for the synthesis of this important class of 2-(perfinoroalkyl)ethane thiols. In this context, a variety of catalysts was examined to determine if they wonld catalyze the hydrogenolysis of 2-(perfinorohexyl)ethane thiocyanate. In the conrse of this study, much to our surprise, it was discovered that a carbon supported Pd-Sn would catalyze the reaction. It is known that palladium and other group Vtll metal catalysts are poisoned by the product thiol, traces of hydrogen sulfide byproduct, and the hydrogen cyanide co-prodnct (6), but our observations are that this catalyst is surprisingly robust in the reaction medium. 

The disulfide intermediate was also hydrogenolyzed very efficiently at about 2-3 times the rate of the thiocyanate in selected solvents such as tetrahydrofuran at a lower temperature and pressure, as illustrated in Table 15.2. Of course, in the disulfide hydrogenolysis, no hydrogen cyanide was available as a coproduct to poison the palladium catalyst. 

It is well known that palladium on carbon catalysts are poisoned by hydrogen cyanide and thiol products or hydrogen sulfide (6). Therefore, it was of interest to investigate the reduction of perfluoroalkyl thiocyanates as a function of tin concentration, keeping the concentration of palladium and reaction conditions constant. Figure 15.1 delineates the % conversion vs. Sn/Pd ratio, under the same reaction conditions of 175°C, 700 psig H2 for 2 hours with 5% Pd on carbon catalysts in ethyl acetate solvent at a 1000 1 substrate catalyst molar ratio. The increase in... 

The addition of morpholine to 2,3-dihydrofuran in the presence of palladium(II) thiocyanate-bis(triphenylphosphine) yields 2-(morpholin-4-yl)tetrahydrofuran (276)303. Irradiation of mixtures of 2-(2-methylpropenyl)phenol (277) and alkylamines yields adducts, e.g. 278 with isopropylamine304. 

Extraction with a tertiary amine, Alamine 336, followed by palladium stripping with thiourea (Tu), and platinum with thiocyanate ... 

Chelate complexes could only be prepared in the case of platinum(II) as the metal ion, while the group V atom alone acted as a donor toward palladium(II) and mercury(II). The coordinated olefin in the chelate complexes was found to be readily displaced by monodentate ligands such as tertiary arsines, -toluidine and the thiocyanate ion. It was suggested by these workers that chelation would take place more readily if the olefinic phosphine or arsine were subject to greater steric restrictions than was the pentenyl ligand. 

The heterobinuclear complex [PdPtCl2( -dppm)2] can also be prepared by treating the product from the reaction of dppm and [Pd(PPh3)4] with [PtCl2(NCBu,)2].76 The corresponding bromide, iodide and thiocyanate dipalladium and palladium-platinum complexes have been prepared by metathesis of the dichloride (9) with NaX.76... 

Tabic 1 Typical Palladium(II)-Thiocyanate and -Selenocyanate Complexes and IR Data ... 

Spectrophotometric studies have been carried out on solutions of Pd11 containing thiourea in perchlorate, chloride, bromide and thiocyanate media,116 such solutions being of practical importance in the analytical chemistry of palladium.117... 

P NMR spectroscopy.53 Steric factors account for the different coordination modes, while the influence of electronic factors is evidenced by the difference in structure between analogous palladium(II) and platinum(II) compounds, for example, the thiocyanates are N- and S-bonded in [Pd(NCS)(SCN)(diars)], but only S-bonded in [Pt(SCN)2(diars)].54 These and other diphosphine or diarsine complexes of palladium(II) with thio- or seleno-cyanate ligands are further discussed in Section 51.8.2.6. 

Palladium may be distinguished from copper, since ammonium thiocyanate yields no precipitate even after passage of sulphur dioxide. 

Burmeister and colleagues have described the related pseudohalogen derivatives MfterpyjXj (X = SCN or SeCN) (90-92). The platinum compound exhibits the two thiocyanate stretching frequencies expected for a square-planar complex, and is formulated [Pt(terpy)(NCS)][NCS], However, the palladium complexes are less easily formulated, exhibiting absorptions due to coordinated ECN (E = S or Se) only. These observations were interpreted in terms of a square-planar structure, with a bidentate terpy ligand in view of the known ability for palladium and platinum diimine complexes to form five-coordinate species, this formulation must also be considered. In the absence of definitive structural evidence, the formulation as five-coordinate species must be regarded as speculative. 

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