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Electrodeposition hydrogen

On account of the fact that the electrode potential of molybdenum is more negative than the discharge potential of hydrogen, principle difficulties arise to cathodically electrodeposit molybdenum chalcogenide films from aqueous solutions. Theoretically, the deposition of pure molybdenum by electrolytic reduction of molybdates in acidic aqueous solutions is possible according to the reaction... [Pg.110]

A procedure involving (a) the deposition of nearly stoichiometric films of copper and indium on suitable substrates using vacuum evaporation or electrodeposition and (b) the heat treatment of Cu-In films in a hydrogen-selenium atmosphere at temperatures above 630 °C was reported to yield large grain (several mm in size), stoichiometric thin films of chalcopyrite CIS with a preferred 112 orientation [167]. [Pg.115]

It has been pointed out that metals residing below the position held by manganese (and, therefore, much below hydrogen) in the electrochemical series (Table 6.11) cannot be electrodeposited from aqueous solutions of their salts. These metals are called base metals or reactive metals and can be electrodeposited only from nonaqueous electrolytes such as solutions in organic solvents and molten salts. As with an aqueous electrolyte, there is a minimum voltage which is required to bring about the electrolysis of a molten salt. [Pg.694]

This technique is applied to mixtures of metal ions in an acidic solution for the purpose of electroseparation only the metal ions with a standard reduction potential above that of hydrogen are reduced to the free metal with deposition on the cathode, and the end of the reduction appears from the continued evolution of hydrogen as long as the solution remains acidic. Considering the choice of the cathode material and the nature of its surface, it must be realized that the method is disturbed if a hydrogen overpotential occurs in that event no hydrogen is evolved and as a consequence metal ions with a standard reduction potential below that of hydrogen will still be reduced a classic example is the electrodeposition of Zn at an Hg electrode in an acidic solution. [Pg.229]

Since indium is one of the most effective metals for electrochemical reduction of C02, n-Ti02 on which indium had been electrodeposited was examined.92 Enhancement of the faradaic efficiency of C02 reduction by one order of magnitude or more compared to that at undoped n-Ti02 was observed, but the product detected was mainly hydrogen with a small amount (<5%... [Pg.347]

FIGURE 13.6 Calibration plot for hydrogen peroxide detection in flow-injection mode with nano-struc-tured Prussian blue as a detector Prussian blue electrodeposited through sol template based on the vinyltri-ethoxysilane, operating potential 50 mV, phosphate buffer pH 6.0 + 0.1M KC1, flowrate 0.7ml/min. [Pg.448]


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See also in sourсe #XX -- [ Pg.193 ]




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