Nitrites properties

BASF http //www.basf.com, Dow http //www.dow.com, Fluka http //www.sigma-aidrich.com, Penta Mfg. http //www.pentamfg. com Sigma Spectrum Quality Prods. http //www.spectrumchemicai.com, Vopak USA http //WWW. vopakusa. com Diisopropylamine nitrite Properties M.p. 139C Uses Corrosion inhibitor for steel Diisopropyl benzaldehyde CAS 68459-95-0 EINECS/ELINCS 270-621-1 Synonyms 2,4-Bis (isopropyl) benzaldehyde Uses Fragrance in cosmetics 1,3-Diisopropyl benzene CAS 99-62-7 EINECS/ELINCS 202-773-1 Synonyms 1,3-Bis(1-methylethyl) benzene m-Diisopropylbenzene m-DIPB 3-Isopropylcumene Empiricai C12H18... 

Rhenium oxides have been studied as catalyst materials in oxidation reactions of sulfur dioxide to sulfur trioxide, sulfite to sulfate, and nitrite to nitrate. There has been no commercial development in this area. These compounds have also been used as catalysts for reductions, but appear not to have exceptional properties. Rhenium sulfide catalysts have been used for hydrogenations of organic compounds, including benzene and styrene, and for dehydrogenation of alcohols to give aldehydes (qv) and ketones (qv). The significant property of these catalyst systems is that they are not poisoned by sulfur compounds. 

The many industrial uses for sodium nitrite primarily are based on its oxidizing properties or its Hberation of nitrous acid in acidic solutions. 

The scientific and technical corrosion literature has descriptions and lists of numerous chemical compounds that exhibit inhibiting properties. Of these only a very few are ever actually used in practical systems. This is partly due to the fact that in practice the desirable properties of an inhibitor usually extend beyond those simply relating to metal protection. Thus cost, toxicity, availability, etc. are of considerable importance as well as other more technical aspects (see Principles). Also, as in many other fields of scientific development, there is often a considerable time lag between laboratory development and practical application. In the field of inhibition the most notable example of this gap between discovery and application is the case of sodium nitrite. Originally reported in 1899 to have inhibitive properties, it remained effectively unnoticed until the 1940s it is now one of the most widely employed inhibitors. 

There has been much activity in this field of corrosion inhibition in recent years which appears to have been prompted by health and safety requirements. As with engine coolants, the use of nitrites, particularly where amines may also be present, needs to be considered carefully. Nitrites have been widely used in cutting, grinding, penetrating, drawing and hydraulic oils. Suggested replacements for nitrites and/or amines make use, inter alia, of various borate compounds, e.g. monoalkanolamide borates. Molybdates have also been proposed in conjunction with other inhibitors, e.g. carbox-ylates, phosphates, etc . Water-based metalworking fluids usually contain other additives in addition to corrosion inhibitors, e.g. for hard-water stability, anti-foam, bactericidal proderties and so on. Thus, claims are made for oil-in-water emulsions with bactericidal and anti-corrosion properties. 

Little is known regarding the pharmacokinetic properties of volatile nitrites in humans, particularly isobutyl nitrite and its primary metabolite, isobutyl alcohol. In rodents, after an intravenous infusion of isobutyl nitrite, blood concentrations peaked rapidly and then declined, with a half-life of 1.4 minutes and blood clearance rate of 2.9 L/min/kg (Kielbasa and Fung 2000). Approximately 98% of isobutyl nitrite is metabolized rapidly to isobutyl alcohol, concentrations of which also decline rapidly, with a half-life of 5.3 minutes. Bioavailability of inhaled isobutyl nitrite at a concentration of 300-900 ppm is estimated to be 43%. 

Cyclic GMP is made from GTP by the enzyme gua-nylyl cyclase, which exists in soluble and membrane-bound forms. Each of these isozymes has unique physiologic properties. The atriopeptins, a family of peptides produced in cardiac atrial tissues, cause natriuresis, diuresis, vasodilation, and inhibition of aldosterone secretion. These peptides (eg, atrial natriuretic factor) bind to and activate the membrane-bound form of guanylyl cyclase. This results in an increase of cGMP by as much as 50-fold in some cases, and this is thought to mediate the effects mentioned above. Other evidence links cGMP to vasodilation. A series of compounds, including nitroprusside, nitroglycerin, nitric oxide, sodium nitrite, and sodium azide, all cause smooth muscle re-... 

The adverse properties of red beet preparations are without doubt, their high nitrate content, their unpleasant smell due to pyrazine derivatives and geosmin with a low odor threshold, and finally the risk of carry-over of earth-bound germs. - " Since nitrate has been associated with nitrite and nitrosamine formation, the latter exhibiting cancer-inducing properties, procedures have been developed to reduce the nitrate content of red beet preparations. This has been achieved by microbial denitrification. - ... 

Mercuric and mercurous nitrates have the same oxidising properties as nitrates. The first has been involved in accidents with phosphine (formation of a complex, which detonates on impact) and alkaline cyanides. In the latter case, it is assumed that the danger arises from the formation of mercury nitrite, which is highly unstable in one particular accident the use of an apparatus with a narrow neck aggravated the effect, causing an effect of confinement. The second nitrate led to more or less strong detonations with carbon (red-hot) and phosphorus (on impact). 

When o-Nitroaniline is treated by sodium nitrite in acid medium and then by an inorganic sulphide, it forms an explosive diazonium sulphide. Note that even though the presence of a nitrated group does not help, it certainly is not a factor that is vital to cause the explosion, since this is a property that is common to all these diazonium salts whatever the nature of the substitution on the ring. The situation is exactly the same with p-nitroaniline. 

Polymers with mesogenic groups directly attached to backbone, properties, 97,98/ Polyolefin hydroperoxides and alcohols, IR bands of nitrates and nitrites, 384/ Polyolefins... 

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