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Dry oxygen

It is an advantage to have all the components of the purification train mounted on a small rigid framework. Thus pure, dry oxygen is delivered at the combustion tube. [Pg.469]

Sihcon dioxide layers can be formed using any of several techniques, including thermal oxidation of siUcon, wet anodization, CVD, or plasma oxidation. Thermal oxidation is the dominant procedure used in IC fabrication. The oxidation process selected depends on the thickness and properties of the desired oxide layer. Thin oxides are formed in dry oxygen, whereas thick (>0.5 jim) oxide layers are formed in a water vapor atmosphere (13). [Pg.347]

Fig. 4. Sihcon dioxide growth rate using a (100) sihcon substrate where the sohd lines represent a dry oxygen and the dashed lines a steam atmosphere. Fig. 4. Sihcon dioxide growth rate using a (100) sihcon substrate where the sohd lines represent a dry oxygen and the dashed lines a steam atmosphere.
Titanium disulfide can also be made by pyrolysis of titanium trisulfide at 550°C. A continuous process based on the reaction between titanium tetrachloride vapor and dry, oxygen-free hydrogen sulfide has been developed at pilot scale (173). The preheated reactants ate fed iato a tubular reactor at approximately 500°C. The product particles comprise orthogonally intersecting hexagonal plates or plate segments and have a relatively high surface area (>4 /g), quite different from the flat platelets produced from the reaction between titanium metal and sulfur vapor. The powder, reported to be stable to... [Pg.133]

The hydrides can also be used to form primary alcohols from either terminal or internal olefins. The olefin and hydride form an alkenyl zirconium, Cp2ZrRCl, which is oxidized to the alcohol. Protonic oxidizing agents such as peroxides and peracids form the alcohol direcdy, but dry oxygen may also be used to form the alkoxide which can be hydrolyzed (234). [Pg.439]

Bismuth pentafluoride is an active fluorinating agent. It reacts explosively with water to form ozone, oxygen difluoride, and a voluminous chocolate-brown precipitate, possibly a hydrated bismuth(V) oxyfluoride. A similar brown precipitate is observed when the white soHd compound bismuth oxytrifluoride [66172-91 -6] BiOF, is hydrolyzed. Upon standing, the chocolate-brown precipitate slowly undergoes reduction to yield a white bismuth(Ill) compound. At room temperature BiF reacts vigorously with iodine or sulfur above 50°C it converts paraffin oil to fluorocarbons at 150°C it fluorinates uranium tetrafluoride to uranium pentafluoride and at 180°C it converts Br2 to bromine trifluoride, BrF, and bromine pentafluoride, BrF, and chlorine to chlorine fluoride, GIF. It apparently does not react with dry oxygen. [Pg.129]

The oxidation rate of granular silicon carbide in dry oxygen at 900—1600°C was studied and an equation for the effect of particle size was derived (61). [Pg.466]

Na202, is prepared as pale-yellow powder by first oxidizing Na to Na20 in a limited supply of dry oxygen (air) and then reacting this further to give Na202 ... [Pg.84]

Table 1.27 Metals which form porous oxides in dry oxygen... Table 1.27 Metals which form porous oxides in dry oxygen...
Specimens were placed in a silica reactor that was equipped with two side tubes for XPS and ESR measurements and connected to a circulation apparatus, described elsewhere [25, 26]. The catalysts, dried at 383 K, were characterized as prepared (a.p.), after heating in dry oxygen at 773 K (s.o.), or after reduction with CO. In some experiments, as specified, samples were exposed to NO, NH3, or various mixtures NO-O2-NH3. Electrons per V atom (e/V) were determined from the CO consumed. The average oxidation number of vanadium was calculated as 5 - eA/. [Pg.692]

Reactivity towards air or oxygen increases from lithium to caesium, and the intensity depends on state of subdivision and on presence or absence of moisture. Lithium normally ignites in air above its m.p., while potassium may ignite after exposure to atmosphere, unless it is unusually dry. Rubidium and caesium ignite immediately on exposure [1], It is reported that sodium and potassium may be distilled unchanged under perfectly dried oxygen [2],... [Pg.1842]

Rubidium is a typical but very reactive member of the series of alkali metals.lt is appreciably more reactive than potassium, but less so than caesium, and so would be expected to react more violently with those materials that are hazardous with potassium or sodium. Rubidium ignites on exposure to air or dry oxygen, largely forming the oxide. [Pg.1896]

Owing to its extreme reactivity, diboron tetrachloride must always be handled in dry oxygen-free apparatus. Sudden exposure to air has been known to result in detonation. [Pg.125]

Figure 1. DR UV-vis spectra of hydrated Fe-zeolite catalysts pretreated by calcination in flow of dry oxygen at 540 °C (black curves) and steam-treated in the flow of water vapor at 540 °C (gray curves). A) Fe-sil-12900, B) Fe-MTW-11500, C) Fe-MTW-14700, Fe-MTW-18900. Figure 1. DR UV-vis spectra of hydrated Fe-zeolite catalysts pretreated by calcination in flow of dry oxygen at 540 °C (black curves) and steam-treated in the flow of water vapor at 540 °C (gray curves). A) Fe-sil-12900, B) Fe-MTW-11500, C) Fe-MTW-14700, Fe-MTW-18900.
Exposure of 93 to dry oxygen furnished the corresponding ethyl peroxide complex, which is highly active for the expoxidation of enones, and crystallizes dimeric with bridging Zn-O bonds.153... [Pg.358]

X-ray studies carried out by Gallezot et al. (46) on a 53 percent EDTA-dealuminated Y zeolite, have shown that the aluminum extraction does not leave any vacancies in the framework after calcination at 400°C in flowing, dry oxygen and nitrogen (46). It was suggested that a local re-crystall-ization of the framework occurs even in the absence of steam. The silica necessary for the process presumably originates in the destroyed surface layers of the crystallite and diffuses into its interior. [Pg.173]


See other pages where Dry oxygen is mentioned: [Pg.52]    [Pg.125]    [Pg.931]    [Pg.314]    [Pg.348]    [Pg.499]    [Pg.95]    [Pg.332]    [Pg.163]    [Pg.156]    [Pg.400]    [Pg.377]    [Pg.2]    [Pg.19]    [Pg.61]    [Pg.7]    [Pg.716]    [Pg.32]    [Pg.867]    [Pg.128]    [Pg.606]    [Pg.235]    [Pg.22]    [Pg.4]    [Pg.571]    [Pg.272]    [Pg.869]    [Pg.931]    [Pg.278]    [Pg.452]    [Pg.10]    [Pg.10]    [Pg.228]    [Pg.398]    [Pg.398]   
See also in sourсe #XX -- [ Pg.338 ]




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