Bromine physical properties

Chakactkrisation of Unsaturatkd Aliphatic Hydrocarbons Unlike the saturated hydrocarbons, unsaturated aliphatic hydrocarbons are soluble in concentrated sulphuric acid and exhibit characteristic reactions with dUute potassium permanganate solution and with bromine. Nevertheless, no satisfactory derivatives have yet been developed for these hydrocarbons, and their characterisation must therefore be based upon a determination of their physical properties (boiling point, density and refractive index). The physical properties of a number of selected unsaturated hydrocarbons are collected in Table 111,11. 

Octabromodiphenyl Oxide. Octabromodiphenyl oxide [32536-52-0] (OBDPO) is prepared by bromination of diphenyl oxide. The degree of bromination is controlled either through stoichiometry (34) or through control of the reaction kinetics (35). The melting poiat and the composition of the commercial products vary somewhat. OBDPO is used primarily ia ABS resias where it offers a good balance of physical properties. Poor uv stabiUty is the primary drawback and use ia ABS is being supplanted by other brominated flame retardants, primarily TBBPA. 

Bromine Monofluoride. Bromine monofluoride is red to red-brown (4) and is unstable, disproportionating rapidly into bromine and higher fluorides. Therefore, the measurement of its physical properties is difficult and the values reported in Table 1 are only approximate. The uv-absorption spectmm is available (25). 

Physical Properties. Sulfuryl chloride [7791-25-5] SO2CI2, is a colorless to light yellow Hquid with a pungent odor. Physical and thermodynamic properties are Hsted ia Table 7. Sulfuryl chloride dissolves sulfur dioxide, bromine, iodine, and ferric chloride. Various quaternary alkyl ammonium salts dissolve ia sulfuryl chloride to produce highly conductive solutions. Sulfuryl chloride is miscible with acetic acid and ether but not with hexane (193,194). 

Zirconium tetrabromide [13777-25-8] ZrBr, is prepared direcdy from the elements or by the reaction of bromine on a mixture of zirconium oxide and carbon. It may also be made by halogen exchange between the tetrachloride and aluminum bromide. The physical properties are given in Table 7. The chemical behavior is similar to that of the tetrachloride. 

Biomine is a dense, dark red, mobile liquid tkat vaporizes readily at room temperature to give a ted vapor that is highly corrosive to many materials and human tissues. Bromine hquid and vapor, up to about 600°C, ate diatomic (Bt2). Table 1 summarizes the physical properties of bromine. 

Chemical Intermediates and Reagents. Table 1 Hsts some chemical intermediates and synthesis reagents containing bromine. The references cited in the table generally give a method of synthesis and often some physical properties. Other physical properties are also available (194—196). 

Radiopaque materials are used to determine the location of aspirated dentures and fragments (205,206). Opacifying additives include barium sulfate, barium fluoride, barium or bismuth glasses, and brominated organic monomers and polymers. The incorporation of these additives into the resin base or tooth can adversely affect physical properties. Radiopaque materials meeting the requirement for ANSI/ADA specifications for denture-base polymer have been described (207). 

BrCl exists in equilibrium with bromine and chlorine in both gas and liquid phases. Table 5 lists various physical properties of BrCl. Due to the polarity of BrCl, it shows greater solubility than bromine in polar solvents. In water, it has a solubility of 8.5 gms per 100 gms of water at 20 C (that is, 2.5 times the solubility of bromine 11 times that of chlorine). Bromine chloride s solubility in water is increased greatly by adding chloride ions to form the complex chlorobromate ion, BrCl 2. 

Safety risks and the environmental impact are of major importance for the practical success of bromine storage system. The nonaqueous polybromide complexes in general show excellent physical properties, such as good ionic conductivity (0.1-0.05 Qcirf1), oxidation stability (depending on the nature of the ammonium ion), and a low bromine vapor pressure. The concentration of active bromine in the aqueous solution is reduced by formation of the complex phase up to 0.01-0.05 mol/L, hence ensuring a decisive decrease of selfdischarge. 

The physical properties of the interhalogens are intermediate between those of their parent halogens. Trends in the chemistry of the interhalogen fluorides can be related to the decrease in bond dissociation energy as the central halogen atom becomes heavier. The fluorides of the heavier halogens are all very reactive bromine trifluoride gas is so reactive that even asbestos burns in it. 

Benzyl salicylate, 22 16 25 184 physical properties of, 22 13t Benzyl sulfone pyrolysis, 21 141 Benzyltrimethylammonium tribromide, bromination reagent, 4 344 Bepadin, molecular formula and structure, 5 97t, 118t Bepridil, 5 104... 

Inorganic bismuth compounds, 4 17—26 Inorganic bromamines, 13 101—104 Inorganic bromine compounds, 4 318-339 Inorganic cellulose esters, 5 394-412 physical properties, 5 402 103 preparation, 5 396-402 uses of, 5 402 08... 

The configuration with the bromines adjacent is called cis (from the Latin derivative for on this side ), whereas that with bromines opposite is called trans (which means on the other side ). The two configurations are different substances with unique chemical and physical properties. They are described as geometric isomers. (See Figure 6-l4.)... 

Loss of bromine produces dramatic changes in physical properties between exposed and unexposed areas and provides the basis for lithographic applications. 

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