Bromine

Bromine

Bromine (pronEng|ˈbroʊmiːn/, /ˈbroʊmaɪn/, /ˈbroʊmɪn, _el. βρῶμος, "brómos", meaning "stench (of he-goats)" Gemoll W, Vretska K: Griechisch-Deutsches Schul- und Handwörterbuch ("Greek-German dictionary"), 9th ed., published by [http://www.oebvhpt.at/ öbvhpt] , ISBN 3-209-00108-1] ), is a chemical element with the symbol Br and atomic number 35. A halogen element, bromine is a reddish-brown volatile liquid at standard room temperature that is intermediate in reactivity between chlorine and iodine. Bromine vapours are corrosive and toxic. Approximately 556,000,000 kg were produced in 2007. Jack F. Mills "Bromine" in Ullmann's Encyclopedia of Chemical Technology Wiley-VCH Verlag; Weinheim, 2002. DOI: 10.1002/14356007.a04_391] The main applications for bromine are in fire retardants and fine chemicals.

History

Bromine was discovered independently by two chemists Antoine Balard and Carl Jacob Löwig in 1825 and 1826.

Balard found bromide salts in the ash of sea weed from the salt marshes of Montpellier in 1826. The seaweed was used to produce iodine, but also contained bromine.

Carl Jacob Löwig working at the laboratory of Leopold Gmelin produced elemental bromine by reacting mineral salts, which contained bromides, with chlorine gas. The publication of the results was delayed and Balard published his results first.

Bromine was not produced in quantity until 1860. The French chemist and physicist Joseph-Louis Gay-Lussac suggested the name bromine due to the characteristic smell of the vapors. Some also suggest that it may have been discovered by Bernard Courtois, the man who discovered iodine. [cite web
url = http://www.vanderkrogt.net/elements/elem/br.html
title = Bromine
publisher = vanderkrogt.net
]

Potassium bromide and sodium bromide were used as anticonvulsants and sedatives in the late 19th and early 20th centuries, until it was gradually superseded by chloral hydrate and then the barbiturates.

Isotopes

Bromine has 2 stable isotopes: Br-79 (50.69%) and Br-81 (49.31%). At least another 23 [cite book | author=GE Nuclear Energy | title=Chart of the Nuclides, 14th Edition | year=1989 ] isotopes are known to exist. Many of the bromine isotopes are fission products. Several of the heavier bromine isotopes from fission are delayed neutron emitters. All of the radioactive bromine isotopes are relatively short lived. The longest half life is the neutron deficient Br-77 at 2.376 days. The longest half life on the neutron rich side is Br-82 at 1.471 days. A number of the bromine isotopes exhibit metastable isomers. Stable Br-79 exhibits a radioactive isomer, with a half life of 4.86 seconds. It decay by isomeric transition to the stable ground state.

Notable characteristics

Bromine is the only liquid nonmetallic element at room temperature, and one of only six elements on the periodic table that are liquid at or close to room temperature. The pure chemical element has the physical form of a diatomic molecule, Br2. It is a dense, mobile, reddish-brown liquid, that evaporates easily at standard temperature and pressures to give a red vapor (its color resembles nitrogen dioxide) that has a strong disagreeable odor resembling that of chlorine. Bromine is a halogen, and is less reactive than chlorine and more reactive than iodine. Bromine is slightly soluble in water, and highly soluble in carbon disulfide, aliphatic alcohols (such as methanol), and acetic acid. It bonds easily with many elements and has a strong bleaching action. Bromine, like chlorine, is also used in maintenance of swimming pools.

Certain bromine-related compounds have been evaluated to have an ozone depletion potential or bioaccumulate in living organisms. As a result many industrial bromine compounds are no longer manufactured, are being restricted, or scheduled for phasing out.

Bromine is a powerful oxidizing agent. It reacts vigorously with metals, especially in the presence of water, as well as most organic compounds, especially upon illumination.

Bromine has no known role in human health. Organobromine compounds do occur naturally, a famous example being Tyrian purple. Most organobromine compounds in nature arise via the action of vanadium bromoperoxidase.

Occurrence and production

:"See also ."The diatomic element Br2 does not occur naturally. Instead, bromine exists exclusively as bromide salts in diffuse amounts in crustal rock. Due to leaching, bromide salts have accumulated in sea water (85 ppm), but at a lower concentration than chloride. Bromine may be economically recovered from bromide-rich brine wells and from the Dead Sea waters (up to 50000 ppm).

Approximately 556,000 metric tons (worth around US$2.5 billion) of bromine are produced per year (2007) worldwide with the United States, China, and Israel being the primary producers. Bromine production has increased sixfold since the 1960s. The largest bromine reserve in the United States is located in Columbia and Union County, Arkansas, U.S. [ [http://www.cals.lib.ar.us/butlercenter/lesson_plans/lesson%20plans/Lesson%20plans-retained/Bromine.pdf Bromine:An Important Arkansas Industry] , Butler Center for Arkansas Studies] China's bromine reserves are located in the Shandong Province and Israel's bromine reserves are contained in the waters of the Dead Sea. The bromide-rich brines are treated with chlorine gas, flushing through with air. In this treatment, bromide anions are oxidized to bromine by the chlorine gas.

:2 Br + Cl2 → 2 Cl + Br2

Because of its commercial availability and long shelf-life, bromine is not typically prepared. Small amounts of bromine can however be generated through the reaction of solid sodium bromide with concentrated sulfuric acid (H2SO4). The first stage is formation of hydrogen bromide (HBr), which is a gas, but under the reaction conditions some of the HBr is oxidized further by the sulfuric acid to form bromine (Br2) and sulfur dioxide (SO2).:NaBr (s) + H2SO4 (aq) → HBr (aq) + NaHSO4 (aq):2 HBr (aq) + H2SO4 (aq) → Br2 (g) + SO2 (g) + 2 H2O (l)

Similar alternatives, such as the use of dilute hydrochloric acid with sodium hypochlorite, are also available. The most important thing is that the anion of the acid (in the above examples, sulfate and chloride, respectively) be more electronegative than bromine, allowing the substitution reaction to occur.

Compounds

Organic chemistry

Organic compounds are brominated by either addition or substitution reactions. Bromine undergoes electrophilic addition to the double-bonds of alkenes, via a cyclic bromonium intermediate. In non-aqueous solvents such as carbon disulfide, this affords the di-bromo product. For example, reaction with ethylene will produce 1,2-dibromoethane. Bromine also undergoes electrophilic addition to phenols and anilines. When used as bromine water, the corresponding bromohydrin is formed instead. So reliable is the reactivity of bromine that bromine water is employed as a reagent to test for the presence alkenes, phenols, and anilines. Like the other halogens, bromine participates in free radical reactions. For example hydrocarbons are brominated upon treatment with bromine in the presence of light.

Bromine, sometimes with a catalytic amount of phosphorus, easily brominates carboxylic acids at the α-position. This method, the Hell-Volhard-Zelinsky reaction, is the basis of the commercial route to bromoacetic acid.

"N"-Bromosuccinimide is commonly used as a substitute for elemental bromine, being easier to handle, and reacting more mildly and thus more selectively.

Organic bromides are often preferable relative to the less reactive chlorides and more expensive iodide-containing reagents. Thus, Grignard and organolithium compound are most often generated from the corresponding bromides.

Inorganic chemistry

Bromine is an oxidizer, and it will oxidize iodide ions to iodine, being itself reduced to bromide:: Br2 + 2 I → 2 Br + I2

Bromine will also oxidize metals and metaloids to the corresponding bromides. Anhydrous bromine is less reactive toward many metals than hydrated bromine, however. Dry bromine reacts vigorously with aluminium, titanium, mercury as well as alkaline earths and alkali metals.

Applications

A wide variety of organobromine compounds are used in industry. Some are prepared from bromine and others are prepared from hydrogen bromide, which is obtained by burning hydrogen in bromine.

Illustrative of the addition reaction [OrgSynth | author = N. A. Khan, F. E. Deatherage, and J. B. Brown | title = Stearolic Acid | collvol = 4 | collvolpages = 851| year = 1963 | prep = CV4P0851] is the preparation of 1,2-Dibromoethane, the organobromine compound produced in the largest amounts::C2H4 + Br2 → CH2BrCH2Br

Ethylene bromide is an additive in gasolines containing lead anti-engine knocking agents. It scavenges lead by forming volatile lead bromide, which is exhausted from the engine. This application has declined since the 1970s due to environmental regulations. Ethylene bromide is also used as a fumigant, but again this application is declining.

Brominated flame retardants represent a commodity of growing importance. Specific compound used produced for this purpose include tetrabromobisphenol A, decabromodiphenyl ether, and vinyl bromide.

The bromides of calcium, sodium, and zinc account for a sizable part of the bromine market. These salts form dense solutions in water that are used as drilling fluids.

Miscellaneous uses:

*Several dyes, agrichemicals, and pharmaceuticals are organobromine compounds. 1-Bromo-3-chloropropane, 1-bromoethylbenzene, and 1-bromoalkanes are prepared by the antimarkovnikov addition of HBr to alkenes. Ethidium bromide, EtBr, is used as a DNA stain in gel electrophoresis.
* Bromine is also used in for the production of brominated vegetable oil, which is used as an emulsifier in many citrus-flavored soft drinks.
* High refractive index compounds
* Water purification compounds, Disinfectants
* Potassium bromide is used in some photographic developers to inhibit the formation of fog (undesired reduction of silver).

Safety

Elemental bromine is toxic and causes burns. As an oxidizing agent, it is incompatible with most organic and inorganic compounds. Care needs to taken when transporting bromine, it is commonly carried in steel tanks lined with lead, supported by strong metal frames.

When certain ionic compounds containing bromine are mixed with potassium permanganate (KMnO4), they will form a pale brown cloud of bromine gas. This gas smells like bleach and is very irritating to the mucus membranes. Upon exposure, one should move to fresh air immediately. If symptoms arise, medical attention is needed.

References

* [http://periodic.lanl.gov/elements/35.html Los Alamos National Laboratory – Bromine]

External links

* [http://www.webelements.com/webelements/elements/text/Br/index.html WebElements.com – Bromine]
* [http://www.theodoregray.com/PeriodicTable/Elements/035/index.s7.html Theodoregray.com – Bromine]
* [http://minerals.usgs.gov/minerals/pubs/commodity/bromine USGS Minerals Information: Bromine]
* [http://www.bsef.com/ Bromine Science and Environmental Forum (BSEF)]
* [http://twt.mpei.ac.ru/MAS/Worksheets/HEDH/5-5-14-43-54/Tab-5-5-14-54-BROMINE-Thermal.mcd Thermal Conductivity of BROMINE]
* [http://twt.mpei.ac.ru/MAS/Worksheets/HEDH/5-5-14-43-54/Tab-5-5-14-54-BROMINE-Viscosity.mcd Viscosity of BROMINE]


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Look at other dictionaries:

  • Bromine — Bro mine, n. [Gr. ? bad smell, stink. Cf. {Brome}.] (Chem.) One of the halogen elements, related in its chemical qualities to chlorine and iodine. Atomic weight 79.8. Symbol Br. It is a deep reddish brown liquid of a very disagreeable odor,… …   The Collaborative International Dictionary of English

  • bromine — Symbol: Br Atomic number: 35 Atomic weight: 79.909 Halogen element. Red volatile liquid at room temperature. Its reactivity is somewhere between chlorine and iodine. Harmful to human tissue in a liquid state, the vapour irritates eyes and throat …   Elements of periodic system

  • bromine — nonmetallic element, 1827, from Fr. brome, from Gk. bromos stench. With chemical suffix INE (Cf. ine) (2). The evil smelling dark red liquid was discovered by French chemist Antoine Jérôme Balard (1802 1876), who initially called it muride …   Etymology dictionary

  • bromine — ► NOUN ▪ a dark red liquid chemical element of the halogen group, with a choking irritating smell. ORIGIN from Greek br mos a stink …   English terms dictionary

  • bromine — [brō′mēn΄, brō′min] n. [Fr brome < Gr brōmos, stench + INE3] a chemical element, one of the halogens, usually in the form of a reddish brown, corrosive liquid, that volatilizes to form a vapor that has an unpleasant odor and is very irritating …   English World dictionary

  • bromine — /broh meen, min/, n. Chem. an element that is a dark reddish, fuming, toxic liquid and a member of the halogen family: obtained from natural brines and ocean water, and used chiefly in the manufacture of gasoline antiknock compounds,… …   Universalium

  • bromine —   n. non metallic chlorine like element found in seawater and mineral springs.    ♦ bromize, v.t. compound with bromine; prepare photographic plate with bromide.    ♦ bromism, n. condition due to excessive use of bromide.    ♦ brominated,   a.… …   Dictionary of difficult words

  • bromine — noun Etymology: French brome bromine + English 2 ine Date: 1827 a nonmetallic halogen element that is isolated as a deep red corrosive toxic volatile liquid of disagreeable odor see element table …   New Collegiate Dictionary

  • bromine — noun /ˈbrəʊmɪn,ˈbrəʊmaɪn,ˈbroʊmin/ a) A nonmetallic chemical element (symbol Br) with an atomic number of 35; one of the halogens b) A bromine atom in a molecule Syn: muride See Also: brome …   Wiktionary

  • bromine — bro•mine [[t]ˈbroʊ min, mɪn[/t]] n. chem. a dark reddish, fuming, toxic liquid element obtained from natural brines and ocean water and used chiefly in gasoline antiknock compounds, pharmaceuticals, and dyes Symbol: Br at. wt.: 79.909 at. no.: 35 …   From formal English to slang

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