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Effective continued electron mass

Utilizing the continuous mass spectrometric techniques developed by Arnot and co-workers and Hornbeck and Molnar in which reaction identification is made from considerations of the appearance potentials of the product ions and from the effects of electron energy, pressure, and repeller potential on product-ion intensity, homonuclear associative ionization reactions have been reported in helium, " in neon, "- " " i46A9,5o,52-si,62) krypton,< " " - " > in... [Pg.256]

In 1994, we reported the dispersion polymerization of MM A in supercritical C02 [103]. This work represents the first successful dispersion polymerization of a lipophilic monomer in a supercritical fluid continuous phase. In these experiments, we took advantage of the amphiphilic nature of the homopolymer PFOA to effect the polymerization of MMA to high conversions (>90%) and high degrees of polymerization (> 3000) in supercritical C02. These polymerizations were conducted in C02 at 65 °C and 207 bar, and AIBN or a fluorinated derivative of AIBN were employed as the initiators. The results from the AIBN initiated polymerizations are shown in Table 3. The spherical polymer particles which resulted from these dispersion polymerizations were isolated by simply venting the C02 from the reaction mixture. Scanning electron microscopy showed that the product consisted of spheres in the pm size range with a narrow particle size distribution (see Fig. 7). In contrast, reactions which were performed in the absence of PFOA resulted in relatively low conversion and molar masses. Moreover, the polymer which resulted from these precipitation... [Pg.123]

We can now consider the effect of a periodic potential field on the electrons. The relation of waves in a constant potential field to waves in a periodic field is very much like that between the vibrations of a continuous medium, treated in Chap. XIV, and vibrations of a weighted medium or periodic set of mass points, discussed in Chap. XV. The calculation which we made there of v the square of the frequency, is similar to that which is made here of the energy of the electron. Thus, there, for the continuous medium, we had Eq. (2.18), Chap. XIV, giving... [Pg.492]

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See also in sourсe #XX -- [ Pg.100 ]



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Effect (continued

Effective continued)

Electron (continued

Electron mass

Mass effects

Mass, electronic

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