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Probe halogen

In order to probe the importance of van der Waals interactions between reactants and solvent, experiments in the gas-liqnid transition range appear to be mandatory. Time-resolved studies of the density dependence of the cage and clnster dynamics in halogen photodissociation are needed to extend earlier quantum yield studies which clearly demonstrated the importance of van der Waals clnstering at moderate gas densities [37, 111]... [Pg.861]

Light from an appropriate light source (a xenon arc or a halogen or tun ten lamp) passes through a monochromator (probe monochromator). The exit intensity at wavelength "k, IqCK), is focused onto the sample by means of a lens (or mirror). Tbe reflected light is collected by a second lens (mirror) and focused onto an appropriate detector (photomultiplier, photodiode, etc.). For simplicity, the two lenses (mirrors) are not shown in Figure 2. For modulated transmission the detector is placed behind the sample. [Pg.389]

Other methods for the determination of chlorine in seawater or saline waters are based on the use of barbituric acid [13] and on the use of residual chlorine electrodes [ 14] or amperometric membrane probes [15,16]. In the barbituric acid method [12], chlorine reacts rapidly in the presence of bromide and has completely disappeared after 1 minute. This result, which was verified in the range pH 7.5-9.4, proves the absence of free chlorine in seawater. A study of the colorimetric deterioration of free halogens by the diethylparaphenylene-diamine technique shows that the titration curve of the compound obtained is more like the bromine curve than that of chlorine. The author suggests... [Pg.125]

The acidity probes discussed above are the most commonly used. However, the use of many different probes has been reported in the literature. This list includes nitriles, alkanes, amines, water, di-hydrogen, deuterium, isotopically labeled molecules, benzene, etc. Probe molecules can also be used to measure basicity on zeohtes. In this case, weakly acidic molecules such as CO2, pyrrole, acetic acid and halogenated light paraffins have been used. Space does not permit discussion of these in any detail, but information about these probes and their applications can be found in the following references [87, 127-130]. [Pg.135]

The amount and uniformity of the solid state reaction of halogen with TTF was probed by the electron microprobe technique. In this analytical method, low energy electron irradiation of a sample provides X-ray core level emissions, characteristic of the element and its relative concentration. Our initial analyses indicated a dramatic dependence of the halogen concentration with the energy of the electron beam. To probe this phenomenon further,... [Pg.84]

Nal, the largest amplitude is observed for pump and probe frequencies of approximately 3500 cm-1. All transients can be described as a sum of two exponentials, one with a time constant of 800 femtoseconds and one with a much longer time constant. The amplitude of the slow component depends linearly on the concentration of dissolved salt. The time constant of the slow component depends on the nature of the anion, and increases within the halogenic series F. Cl-, Br-, and I-. Interestingly, the cation has a much smaller effect on the decay time. [Pg.150]

The discussion thus far has emphasized sensitivity of the frequency of C02 s v3 mode to local stress, sensitivity of its absorption intensity to IR polarization, and sensitivity of both properties to resonant coupling of dimers. For the type of crystals under consideration, which consist mostly of simple hydrocarbon groups, these factors probably dominate in determining the IR spectral characteristics. Other factors can be involved, however, and although they can make simple interpretation of the spectra more problematic, they can also provide additional information about the environment of the C02 probe molecule. The following examples illustrate how one can track the motion of C02 over distances of 1-15 A by observing its proximity to free radical centers or to halogen or deuterium substituents in the crystal lattice. This information complements the previously discussed structural studies, which related to structure within the dimer rather than to the location of the C02 in the crystal matrix. [Pg.359]

The halogen leak tester is widely used in refrigeration applications, but it is sufficiently sensitive for many types of chemical vacuum systems. The apparatus is filled with a halogenated hydrocarbon and the probe of the tester is passed over the suspected area. The gas that is collected by the probe is passed over a hot platinum wire with the resulting formation of positive ions which are collected and measured with a microammeter. [Pg.79]

See other pages where Probe halogen is mentioned: [Pg.121]    [Pg.121]    [Pg.2955]    [Pg.2205]    [Pg.823]    [Pg.15]    [Pg.152]    [Pg.29]    [Pg.31]    [Pg.485]    [Pg.662]    [Pg.83]    [Pg.19]    [Pg.456]    [Pg.228]    [Pg.134]    [Pg.99]    [Pg.103]    [Pg.113]    [Pg.122]    [Pg.651]    [Pg.199]    [Pg.18]    [Pg.84]    [Pg.19]    [Pg.145]    [Pg.270]    [Pg.387]    [Pg.320]    [Pg.150]    [Pg.257]    [Pg.32]    [Pg.735]    [Pg.270]    [Pg.209]    [Pg.79]    [Pg.423]    [Pg.159]    [Pg.242]   
See also in sourсe #XX -- [ Pg.62 ]



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