Sulfide coupling

This line defines the lowest boundary above which water is stable. An environment in which the and pH plot below this line is a condition imder which should spontaneously become reduced to H2. The line defined by the sulfete-sulfide couple is included in Figure 7.7, because it serves as a more practical description of the lowest fi ceirpH characteristics exhibited by natural waters. 

The direct connection of rings A and D at C-l cannot be achieved by enamine or sulfide couplings. This reaction has been carried out in almost quantitative yield by electrocyclic reactions of A/D-secocorrinoid metal complexes and constitutes a magnificent application of the Woodward-Hoffmann rules. First an antarafacial hydrogen shift from C-19 to C-l is induced by light (sigmatropic 18-electron rearrangement), and second, a conrotatory thermally allowed cyclization of the mesoionic 16 a-electron intermediate occurs. Only the 1,19-rrons-isomer is formed (A. Eschenmoser, 1974 A. Pfaltz, 1977). 

The biogenic reduction of sulfate follows two biosynthetic pathways (1) assimilatory incorporation of sulfur into the amino acids e.g. cysteine) with very small sulfur isotope fractionation (2) dissimilatory production of sulfide coupled to oxidation of OM to CO2 (see Scheme 1). If we take, for example, methane as the electron donor, the reaction is... 

The thioboration of terminal alkynes with 9-(alkylthio)-9-borabicyclo[3.3.1]-nonanes (9-RS-9-BBN) proceeds regio- and stereoselectively by catalysis of Pd(Ph,P)4 to produce the 9-[(Z)-2-(alkylthio)-l-alkeny)]-9-BBN derivative 667 in high yields. The protonation of the product 667 with MeOH affords the Markownikov adduct 668 of thiol to 1-alkyne. One-pot synthesis of alkenyl sulfide derivatives 669 via the Pd-catalyzed thioboration-cross-coupling sequence is also possible. Another preparative method for alkenyl sulfides is the Pd-catalyzed cross-coupling of 9-alkyl-9-BBN with l-bromo-l-phe-nylthioethene or 2-bromo-l-phenylthio-l-alkene[534]. 

Aryl and alkenyl phenyl sulfides are prepared by the reaction of aryl and alkenyl halides and inflates with tributylstannyl phenyl sulfide. 2-Chloropyrimidine (737) is used for the coupling[606,607]. The diaryl or divinyl sulfide 739 is prepared by the reaction of distannyl sulfide (738)[548], N,N-Diethylaminotributyltin (740) reacts with aryl halides to give arylamines[608]. 

The cis thioboration of terminal alkynes with 9-(arylthio)-9-BBN is catalyzed by Pd(Pli3P)4 in the presence of styrene. The product 136 is converted into the vinyl sulfides 137 and 138 by the treatment with MeOH or by Pd-catalyzed cross-coupling with aryl or alkenyl halides using K3PO4 in DMF[68]. No thioboration takes place with internal alkynes. 

Hydrometallation is catalyzed by Pd. Hydroboration of l-buten-2-methyl-3-yne (197) with catecholborane (198) gives the 1,4-adduct 199 with 84% selectivity. The ratio of Pd to phosphine (1 1.5) is important[l 10]. The vinyl sulfide 201 is prepared by a one-pot reaction of the thioalkyne 200 via a Pd-catalyzed hydroborution-coupling sequence using dppf as a ligand[l 11]. 

With hydrogen sulfide at 500—600°C, monochlorotoluenes form the corresponding thiophenol derivatives (30). In the presence of palladium catalysts and carbon monoxide, monochlorotoluenes undergo carbonylation at 150—300°C and 0.1—20 MPa (1—200 atm) to give carboxyHc acids (31). Oxidative coupling of -chlorotoluene to form 4,4 -dimethylbiphenyl can be achieved in the presence of an organonickel catalyst, generated in situ, and zinc in dipolar aprotic solvents such as dimethyl acetamide (32,33). An example is shown in equation 4. 

Potentiometric Titrations. If one wishes to analyze electroactive analytes that are not ions or for which ion-selective electrodes are not available, two problems arise. First, the working electrodes, such as silver, platinum, mercury, etc, are not selective. Second, metallic electrodes may exhibit mixed potentials, which may arise from a variety of causes. For example, silver may exchange electrons with redox couples in solution, sense Ag" via electron exchange with the external circuit, or tarnish to produce pH-sensitive oxide sites or Ag2S sites that are sensitive to sulfide and haUde. On the other... 

An alumina-supported trifluoromethylthiocopper reagent gave improved yields of trifluoromethyl aryl sulfides in coupling reactions with this reagent [26 ] (equation 184). 

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