Nickel silver, corrosion potential

Other metals, such as copper, nickel, or silver, have been used as electrode materials in connection with specific applications, such as the detection of amino acids or carbohydrates in alkaline media (copper and nickel) and cyanide or sulfur compounds (silver). Unlike platinum or gold electrodes, these electrodes offer a stable response for carbohydrates at constant potentials, through the formation of high-valence oxyhydroxide species formed in situ on the surface and believed to act as redox mediators (40,41). Bismuth film electrodes (preplated or in situ plated ones) have been shown to be an attractive alternative to mercury films used for stripping voltammetry of trace metals (42,43). Alloy electrodes (e.g., platinum-ruthenium, nickel-titanium) are also being used for addressing adsorption or corrosion effects of one of their components. The bifunctional catalytic mechanism of alloy electrodes (such as Pt-Ru or Pt-Sn ones) has been particularly useful for fuel cell applications (44). 

Radiolysis has been used successfully in order to synthesize various noble (such as silver, gold and platinum) and non-noble (such as nickel and iron) metal nanoparticles in aqueous solution and also in other solvents such as alcohols. Due to their relatively low redox potential compared to that of the bulk, metal clusters can be oxygen-sensitive. However, the deoxygenation (by bubbling with an inert gas such as argon or nitrogen) of the solutions prior to irradiation and their study under inert atmosphere prevent their oxidation. Moreover, since water radiolysis leads to the formation of protons in addition to that of hydrated electrons, radio-induced acidification of the medium may lead to non-noble metal clusters corrosion. Therefore, to avoid the oxidation by protons, the solutions can be prepared in slightly basic medium. 

Special considerations in conductive applications, special conductive blacks must be employed in silver containing gaskets, galvanic corrosion is a problem, attention should be given to material with which diield is connected (potential difference), with zinc or aluminum casing nickel filled materials are preferred... 

It has been demonstrated that STM can operate not only in vacuum but also in air [37] and in electrolytes [38]. For example, Sonnenfeld et al. [37] monitored the in situ deposition of silver on graphite and Arvia et al. [39] monitored the effect of repetitive potential cycling on gold. On the other hand, Fan and Bard [40] studied the in situ STM measurements for the corrosion of stainless steel and the dissolution of nickel under potentiostatic conditions. Szklarczyk and Bockris [41] have published an account of the potential dependence of the crystal reconstruction on platinum in the sodium perchlorate solution at the angstrom scale. The atomic lattice of Al( 111) has been reported... 

The alkaline fuel cell (AFC) with its liqnid alkaline electrolyte KOH uses gas diffusion electrodes with a hydrophobic porous part, which is not flooded by the alkaline electrolyte, and a hydrophilic part containing electrolyte and thus leading to a three-dimensional three-phase boundary layer. As the electrode potentials in alkaline electrolyte are shifted towards more negative values, corrosion is less problematic. Raney Nickel and silver are the state-of-the-art catalysts. The practical use... 

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