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Silver monitoring

Laser stimulation of a silver surface results in a reflected signal over a million times stronger than that of other metals. Called laser-enhanced Raman spectroscopy, this procedure is useful in catalysis. The large neutron cross section of silver (see Fig. 2), makes this element useful as a thermal neutron flux monitor for reactor surveillance programs (see Nuclearreactors). [Pg.82]

The most common form of corrosion is uniform corrosion, in which the entire metal surface degrades at a near uniform rate (1 3). Often the surface is covered by the corrosion products. The msting of iron (qv) in a humid atmosphere or the tarnishing of copper (qv) or silver alloys in sulfur-containing environments are examples (see also SiLVERAND SILVER ALLOYS). High temperature, or dry, oxidation, is also usually uniform in character. Uniform corrosion, the most visible form of corrosion, is the least insidious because the weight lost by metal dissolution can be monitored and predicted. [Pg.274]

Because silver, gold and copper electrodes are easily activated for SERS by roughening by use of reduction-oxidation cycles, SERS has been widely applied in electrochemistry to monitor the adsorption, orientation, and reactions of molecules at those electrodes in-situ. Special cells for SERS spectroelectrochemistry have been manufactured from chemically resistant materials and with a working electrode accessible to the laser radiation. The versatility of such a cell has been demonstrated in electrochemical reactions of corrosive, moisture-sensitive materials such as oxyhalide electrolytes [4.299]. [Pg.262]

PRO-TEK Colorimetric Air Monitoring Badge System Polyvinyl chloride filter Silver membrane filter Silica gel tube... [Pg.385]

Figure 14.14 Schematic diagram of the SFC olefins analyser system Cl, high-surface-area silica column C2, silver-loaded silica column VI and V2, six-poit valves FID, flame-ionisation detector UV, ulcaviolet monitor detector. Figure 14.14 Schematic diagram of the SFC olefins analyser system Cl, high-surface-area silica column C2, silver-loaded silica column VI and V2, six-poit valves FID, flame-ionisation detector UV, ulcaviolet monitor detector.
Various types of reference electrodes have been considered in Section 20.3, and the potentials of these electrodes and their variation with the activity of the electrolyte are listed in Table 21.7, Chapter 21. It is appropriate, however to point out here that the saturated calomel electrode (S.C.E.), the silver-silver chloride electrode and the copper-copper sulphate electrode are the most widely used in corrosion testing and monitoring. [Pg.1010]

The limited anodic potential range of mercury electrodes has precluded their utility for monitoring oxidizable compounds. Accordingly, solid electrodes with extended anodic potential windows have attracted considerable analytical interest. Of the many different solid materials that can be used as working electrodes, the most often used are carbon, platinum, and gold. Silver, nickel, and copper can also be used for specific applications. A monograph by Adams (17) is highly recommended for a detailed description of solid-electrode electrochemistry. [Pg.110]

Therefore these experiments showed a very interesting phenomenon, namely the emission of adsorbed silver atoms from the surface of a substrate after accomplishing the deposition process. In these experiments the semiconductor sensors were used in two ways sensor-substrate onto which the silver was deposited from, the tray, which made it possible to monitor the behaviour of silver atoms on the surface of adsorbent and sensor-detector of emitted silver atoms. [Pg.364]

Fig. 2.4j is a simplified diagram of an amperometric detector. Three electrodes are used, called working, auxiliary and reference electrodes (we ae and re). The we is the electrode at which the electroactivity is monitored, and the re, usually a silver-silver chloride electrode, provides a stable and reproducible voltage to which the potential of the we can be referenced. The ae, usually stainless steel, is a current-carrying electrode. [Pg.68]

Chronopotentiometry has also been used to determine chloride ions in seawater [31]. The chloride in the solution containing an inert electrolyte was deposited on a silver electrode (1.1 cm2) by the passage of an anodic current. The cell comprised a silver disc as working electrode, a symmetrical platinum-disc counter-electrode and a Ag-AgCl reference electrode to monitor the potential of the working electrode. This potential was displayed on one channel of a two-channel recorder, and its derivative was displayed on the other channel. The chronopotentiometric constant was determined over the chloride concentration range 0.5 to 10 mM, and the concentration of the unknown solution was determined by altering the value of the impressed current until the observed transition time was about equal to that used for the standard solution. [Pg.67]

See other pages where Silver monitoring is mentioned: [Pg.1686]    [Pg.12]    [Pg.448]    [Pg.452]    [Pg.455]    [Pg.457]    [Pg.459]    [Pg.86]    [Pg.410]    [Pg.378]    [Pg.2437]    [Pg.403]    [Pg.33]    [Pg.767]    [Pg.177]    [Pg.70]    [Pg.78]    [Pg.468]    [Pg.422]    [Pg.69]    [Pg.23]    [Pg.491]    [Pg.464]    [Pg.186]    [Pg.191]    [Pg.374]    [Pg.437]    [Pg.353]    [Pg.971]    [Pg.227]    [Pg.188]    [Pg.159]    [Pg.244]    [Pg.372]    [Pg.88]    [Pg.300]    [Pg.469]    [Pg.417]    [Pg.562]    [Pg.243]   
See also in sourсe #XX -- [ Pg.305 ]



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