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Glass ion exchange

Table 5.10 summarizes the presently available electrodes categorized as glass, ion-exchange membrane, crystal membrane, and liquid membrane. These electrodes can be used either for direct potentiometric measurements of ionic activity after calibration of the Nemst expression for the particular electrode or to monitor a potentiometric titration when a selected reaction that involves the monitored ion is available. Table 5.10 also indicates the common interfering ions. Several instrument companies are endeavoring to develop potentiometric-membrane electrodes to monitor directly ions in body fluids. [Pg.41]

Table 6. Diffusion processes in soda-lime glass. Ion exchange Ag - Na Source of admixture ions AgNOs. A = 677 nm, polarization TE. Table 6. Diffusion processes in soda-lime glass. Ion exchange Ag - Na Source of admixture ions AgNOs. A = 677 nm, polarization TE.
Table 7. Diffusion processes in BK-7 glass. Ion exchange K+ polarization TE. Table 7. Diffusion processes in BK-7 glass. Ion exchange K+ polarization TE.
Ruschin S., Flurwitz G., Hurwitz T., Kepten A., Arad E., Soreq Y., Eckhouse S., Glass ion-exchange technology for wavelength management applications, Proc. SPIE 4944,... [Pg.135]

Benech P., Persegol D., Saint Andre P., A glass ion exchanged Mach-Zehnder interferometer to stabilize the frequency of a laser diode, J. Phys. D 23 (5), 617-619 (1990). [Pg.136]

Figure 1. Compressive residual stress on the surface of glass ion exchanged in the different salt baths. Figure 1. Compressive residual stress on the surface of glass ion exchanged in the different salt baths.
Sglavo VM. Influence of KNO3 Bath Composition on Ion Exchange Process of Commercial Soda Lime Silicate Hoat Glass. Ion Exchange Technologies,Intech, 2012. [Pg.161]

The following brief classification of membrane electrodes can be used [42] inert membranes (cellulose, some sorts of porous glass) ion exchange membranes. [Pg.12]

An ion-selective electrode based on a glass membrane in which the potential develops from an ion-exchange reaction on the membrane s surface. [Pg.477]

This experiment describes the preparation of liquid ion-exchange electrodes for Gk and Ga +. The liquid ion-exchange solutions are incorporated into PVG membranes and fixed to the end of glass tubing. The internal solutions are either NaGl or GaGk, and a Ag/AgGl reference electrode is situated in the internal solution. [Pg.533]

The porous electrodes in PEFCs are bonded to the surface of the ion-exchange membranes which are 0.12- to 0.25-mm thick by pressure and at a temperature usually between the glass-transition temperature and the thermal degradation temperature of the membrane. These conditions provide the necessary environment to produce an intimate contact between the electrocatalyst and the membrane surface. The early PEFCs contained Nafton membranes and about 4 mg/cm of Pt black in both the cathode and anode. Such electrode/membrane combinations, using the appropriate current coUectors and supporting stmcture in PEFCs and water electrolysis ceUs, are capable of operating at pressures up to 20.7 MPa (3000 psi), differential pressures up to 3.5 MPa (500 psi), and current densities of 2000 m A/cm. ... [Pg.578]

The dissolution of soluble sihcates is of considerable commercial importance. Its rate depends on the glass ratio, sohds concentration, temperature, pressure, and glass particle size. Commercially, glasses are dissolved in either batch atmospheric or pressure dissolvers or continuous atmospheric processes. Dissolution of sodium sihcate glass proceeds through a two-step mechanism that involves ion exchange (qv) and network breakdown (18). [Pg.4]

The flow along the membranes also improves the mass transport there, and the separators between the membranes are constmcted to provide good flow distribution and mixing on the membrane surfaces. Membrane sizes are often about 0.5 x 1 m, spaced about 1 mm apart. Many types of polymers are used to manufacture these ion-exchange-selective membranes, which are often reiaforced by strong fabrics made of other polymers or glass fibers. [Pg.251]

Other Applications. The refractive index of siUcate or borosiUcate glass can be modified by the addition of cesium oxide, introduced as cesium nitrate or carbonate. Glass surfaces can be made resistant to corrosion or breakage by surface ion exchange with cesium compound melts or solutions. This process can also be used for the production of optical wave guides (61). [Pg.378]

SG sols were synthesized by hydrolysis of tetraethyloxysilane in the presence of polyelectrolyte and surfactant. Poly (vinylsulfonic acid) (PVSA) or poly (styrenesulfonic acid) (PSSA) were used as cation exchangers, Tween-20 or Triton X-100 were used as non- ionic surfactants. Obtained sol was dropped onto the surface of glass slide and dried over night. Template extraction from the composite film was performed in water- ethanol medium. The ion-exchange properties of the films were studied spectrophotometrically using adsorption of cationic dye Rhodamine 6G or Fe(Phen) and potentiometrically by sorption of protons. [Pg.317]

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See also in sourсe #XX -- [ Pg.32 ]



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Ion exchange in glasses

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