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Biography
Other usesgood articleInfobox copper Copper (IPAc-en|icon|'|k|?|p|?rrespell|KOP|?r) is a chemical element with the symbol Cu (from lang-la|cuprum) and atomic number 29. It is a ductility|ductile metal with very high thermal conductivity|thermal and electrical conductivity . Pure copper is soft and malleable; a freshly exposed surface has a reddish-orange color. It is used as a conductor of heat and electricity, a building material, and a constituent of various metal alloy s.
The metal and list of copper alloys|its alloys have been used for thousands of years. In the Roman era, copper was principally mined on Cyprus , hence the origin of the name of the metal as ?yprium (metal of Cyprus), later shortened to ?uprum . Its compounds are commonly encountered as copper(II) salts, which often impart blue or green colors to minerals such as turquoise and have been widely used historically as pigments. Architectural structures built with copper corrode to give green verdigris (or patina ). Decorative art prominently features copper, both by itself and as part of pigments.
Copper(II) ions are water-soluble, where they function at low concentration as bacteriostatic agent|bacteriostatic substances , fungicide s, and wood preservatives. In sufficient amounts, they are poisonous to higher organisms; at lower concentrations it is an essential trace nutrient to all higher plant and animal life. The main areas where copper is found in animals are liver, muscle and bone.
Characteristics
Physical
Copper, silver and gold are in group 11 element|group 11 of the periodic table, and they share certain attributes: they have one s-orbital electron on top of a filled d- electron shell and are characterized by high ductility and electrical conductivity. The filled d-shells in these elements do not contribute much to the interatomic interactions, which are dominated by the s-electrons through metallic bond s. Contrary to metals with incomplete d-shells, metallic bonds in copper are lacking a covalent bond|covalent character and are relatively weak. This explains the low hardness and high ductility of single crystals of copper. At the macroscopic scale, introduction of extended defects to the crystal lattice, such as grain boundaries, hinders flow of the material under applied stress thereby increasing its hardness. For this reason, copper is usually supplied in a fine-grained polycrystalline form, which has greater strength than monocrystalline forms.cite book|author = Smith, William F. and Hashemi, Javad |title = Foundations of Materials Science and Engineering|page = 223|publisher = McGraw-Hill Professional|year= 2003|isbn = 0-07-292194-3
The low hardness of copper partly explains its high electrical (59.6×106& nbsp; Siemens (unit)|S /m) and thus also high thermal conductivity, which are the second highest among pure metals at room temperature.cite book|author = Hammond, C. R.|title = The Elements, in Handbook of Chemistry and Physics 81st edition|publisher =CRC press|isbn = 0-8493-0485-7|year = 2004 This is because the resistivity to electron transport in metals at room temperature mostly originates from scattering of electrons on thermal vibrations of the lattice, which are relatively weak for a soft metal. The maximum permissible current density of copper in open air is approximately 3.1×106& nbsp;A/m2 of cross-sectional area, above which it begins to heat excessively.cite book|last=Resistance Welding Manufacturing Alliance |title=Resistance Welding Manual|year=2003|publisher=Resistance Welding Manufacturing Alliance|isbn=0-9624382-0-0|edition=4th|pages=18–12 As with other metals, if copper is placed against another metal, galvanic corrosion will occur.cite web|title=Galvanic Corrosion|url= http://www.corrosion-doctors.org/Forms-galvanic/galvanic-corrosion.htm|work=Corrosion Doctors|accessdate=29 April 2011
Together with osmium (bluish), and gold (yellow), copper is one of only three elemental metals with a natural color other than gray or silver.Cite book|last = Chambers|first = William|last2 = Chambers|first2 = Robert|title = Chambers's Information for the People|publisher = W. & R. Chambers|year = 1884|volume = L|page = 312|edition = 5th|url = http://books.google.com/? id=eGIMAAAAYAAJ|isbn = 0-665-46912-8 Pure copper is orange-red and acquires a reddish tarnish when exposed to air. The characteristic color of copper results from the electronic transitions between the filled 3d and half-empty 4s atomic shells – the energy difference between these shells is such that it corresponds to orange light. The same mechanism accounts for the yellow color of gold.cite book|author1=George L. Trigg|author2=Edmund H. Immergut|title=Encyclopedia of applied physics|url= http://books.google.com/books? id=sVQ5RAAACAAJ|accessdate=2 May 2011|date=1 November 1992|publisher=VCH Publishers|isbn=978-3-527-28126-8|pages=267–272|volume=4: Combustion to Diamagnetism
Chemical
Copper forms a rich variety of compounds with oxidation state s +1 and +2, which are often called cuprous and cupric , respectively. It does not react with water, but it slowly reacts with atmospheric oxygen forming a layer of brown-black copper oxide. In contrast to the oxidation of iron by wet air, this oxide layer stops the further, bulk corrosion. A green layer of verdigris (copper carbonate) can often be seen on old copper constructions, such as the Statue of Liberty , the largest copper statue in the world built using repoussé and chasing .cite web|title=Copper.org: Education: Statue of Liberty: Reclothing the First Lady of Metals – Repair Concerns|url= http://www.copper.org/education/liberty/liberty_reclothed1.html|work=Copper.org|accessdate=11 April 2011 Hydrogen sulfide s and sulfide s react with copper to form various copper sulfide s on the surface. In the latter case, the copper corrodes, as is seen when copper is exposed to air containing sulfur compounds.cite journal|last1=Rickett|first1=B. I.|last2=Payer|first2=J. H.|title=Composition of Copper Tarnish Products Formed in Moist Air with Trace Levels of Pollutant Gas: Hydrogen Sulfide and Sulfur Dioxide/Hydrogen Sulfide|journal=Journal of the Electrochemical Society|year=1995|volume=142|issue=11|pages=3723–3728|doi=10.1149/1.2048404 Oxygen-containing ammonia solutions give water-soluble complexes with copper, as do oxygen and hydrochloric acid to form copper chlorides and acidified hydrogen peroxide to form copper(II) salts. Copper(II) chloride and copper comproportionation|comproportionate to form copper(I) chloride.cite book|last=Richardson|first=Wayne|title=Handbook of copper compounds and applications|year=1997|publisher=Marcel Dekker|location=New York|isbn=978-0-585-36449-0|oclc=47009854
Isotopes
Main|Isotopes of copperThere are 29 isotope s of copper. 63Cu and 65Cu are stable, with 63Cu comprising approximately 69% of naturally occurring copper; they both have a spin (physics)|spin of 3/2.cite journal|title=Nubase2003 Evaluation of Nuclear and Decay Properties|journal=Nuclear Physics A|volume=729|page=3|publisher=Atomic Mass Data Center|year=2003|doi=10.1016/j.nuclphysa.2003.11.001|author=Audi, G|bibcode=2003NuPhA.729....3A|last2=Bersillon|first2=O.|last3=Blachot|first3=J.|last4=Wapstra|first4=A.H. The other isotopes are radioactivity|radioactive , with the most stable being 67Cu with a half-life of 61.83& nbsp;hours. Seven nuclear isomer|metastable isotopes have been characterized, with 68mCu the longest-lived with a half-life of 3.8 minutes. Isotopes with a mass number above 64 decay by beta decay|ß- , whereas those with a mass number below 64 decay by positron emission|ß+ . Copper-64|64Cu , which has a half-life of 12.7 hours, decays both ways.cite web |url= http://www.nndc.bnl.gov/chart/reCenter.jsp? z=29& n=35 |title=Interactive Chart of Nuclides |work=National Nuclear Data Center |accessdate=2011-04-08
62Cu and 64Cu have significant applications. 64Cu is a radiocontrast for X-ray imaging, and complexed with a chelation|chelate can be used for radiation therapy|treating cancer. 62Cu is used in 62Cu-PTSM that is a radioactive tracer for positron emission tomography.Cite journal |author=Okazawa, Hidehiko et al. |year=1994 |title=Clinical Application and Quantitative Evaluation of Generator-Produced Copper-62-PTSM as a Brain Perfusion Tracer for PET |journal=Journal of Nuclear Medicine |volume=35 |issue=12 |pages=1910–1915 |url= http://jnm.snmjournals.org/cgi/reprint/35/12/1910.pdf|pmid=7989968 |format=PDF
Occurrence
Copper can be found as either native copper or as part of minerals. Native copper is a polycrystal , with the largest described single crystal measuring 4.4×3.2×3.2& nbsp;cm.cite journal|url = http://www.minsocam.org/ammin/AM66/AM66_885.pdf|journal = American Mineralogist|volume = 66|page=885|year= 1981|title= The largest crystals|author = Rickwood, P. C. The largest mass of elemental copper weighed 420 tonnes and was found in 1857 on the Keweenaw Peninsula in Michigan , US. There are many examples of copper-containing minerals: chalcopyrite and chalcocite are copper sulfides, azurite and malachite are copper carbonates and cuprite is a copper oxide. Copper is present in the Earth's crust at a concentration of about 50 parts per million (ppm),cite book|author=Emsley, John|title=Nature's building blocks: an A-Z guide to the elements|url= http://books.google.com/books? id=j-Xu07p3cKwC& pg=PA123|accessdate=2 May 2011|date=11 August 2003|publisher=Oxford University Press|isbn=978-0-19-850340-8|pages=121–125 and is also synthesized in massive stars.cite journal|last1=Romano|first1=Donatella|last2=Matteucci|first2=Fransesca|title=Contrasting copper evolution in ? Centauri and the Milky Way|journal=Monthly Notices of the Royal Astronomical Society: Letters|year=2007|volume=378|issue=1|pages=L59–L63|doi=10.1111/j.1745-3933.2007.00320.x|bibcode=2007MNRAS.378L..59R|arxiv = astro-ph/0703760
Production
seealso|List of countries by copper production Most copper is mined or copper extraction techniques|extracted as copper sulfides from large open pit mine s in porphyry copper deposits that contain 0.4 to 1.0% copper. Examples include Chuquicamata in Chile , Bingham Canyon Mine in Utah, United States and El Chino Mine in New Mexico, United States. According to the British Geological Survey , in 2005, Chile was the top mine producer of copper with at least one-third world share followed by the United States, Indonesia and Peru. The amount of copper in use is increasing and the quantity available is barely sufficient to allow all countries to reach developed world levels of usage.cite journal|url= http://www.pnas.org/content/103/5/1209.full|title=Metal stocks and sustainability|journal=PNAS|year=2006|volume=103|issue=5|pages=1209–1214|first1=R. B.|last1=Gordon|first2=M.|last2=Bertram|first3=T. E.|last3=Graedel|doi=10.1073/pnas.0509498103|pmc=1360560|pmid=16432205|bibcode = 2006PNAS..103.1209G
Reserves
seealso|Peak copper#Reserves Copper has been in use at least 10,000 years, but more than 95% of all copper ever mined and smelting|smelted has been extracted since 1900. As with many natural resources, the total amount of copper on Earth is vast (around 1014 tons just in the top kilometer of Earth's crust, or about 5 million years worth at the current rate of extraction). However, only a tiny fraction of these reserves is economically viable, given present-day prices and technologies. Various estimates of existing copper reserves available for mining vary from 25 years to 60 years, depending on core assumptions such as the growth rate.cite book|author=Brown, Lester|title=Plan B 2.0: Rescuing a Planet Under Stress and a Civilization in Trouble|publisher=New York: W.W. Norton|year=2006|page=109|isbn=0-393-32831-7 Recycling is a major source of copper in the modern world.cite web|url= http://www.salon.com/tech/htww/2006/03/02/peak_copper/index.html|title=Peak copper? |publisher=Salon – How the World Works|author=Leonard, Andrew |date=2006-03-02|accessdate=2008-03-23 Because of these and other factors, the future of copper production and supply is the subject of much debate, including the concept of Peak copper , analogous to Peak Oil .
The price of copper has historically been unstable,cite journal|last=Schmitz|first=Christopher|title=The Rise of Big Business in the World, Copper Industry 1870–1930|journal=Economic History Review|year=1986|volume=39|series=2|issue=3|pages=392–410|jstor=2596347|doi=10.1111/j.1468-0289.1986.tb00411.x and it quintupled from the 60-year low of US$0.60/lb (US$1.32/kg) in June 1999 to US$3.75 per pound (US$8.27/kg) in May 2006. It dropped to US$2.40/lb (US$5.29/kg) in February 2007, then rebounded to US$3.50/lb (US$7.71/kg) in April 2007.cite web|url = http://metalspotprice.com/copper-trends/|title =Copper Trends: Live Metal Spot Prices In February 2009, weakening global demand and a steep fall in commodity prices since the previous year's highs left copper prices at US$1.51/lb.cite news|url = http://www.forbes.com/2009/02/04/copper-frontera-southern-markets-equity-0205_china_51.html|title = A Bottom In Sight For Copper|author = Ackerman, R. |date = 02-04-2009|publisher = Forbes
Methods
main|Copper extraction techniquesThe concentration of copper in ores averages only 0.6%, and most commercial ores are sulfides, especially chalcopyrite (CuFeS2) and to a lesser extent chalcocite (Cu2S). These minerals are concentrated from comminution|crushed ores to the level of 10–15% copper by froth flotation or bioleaching .cite journal|last=Watling|first=H. R.|title=The bioleaching of sulphide minerals with emphasis on copper sulphides — A review|journal=Hydrometallurgy|year=2006|volume=84|issue=1, 2|pages=81–108|url= http://infolib.hua.edu.vn/Fulltext/ChuyenDe/ChuyenDe07/CDe53/59.pdf|format=PDF|doi=10.1016/j.hydromet.2006.05.001 Heating this material with silica in flash smelting removes much of the iron as slag. The process exploits the greater ease of converting iron sulfides into its oxides, which in turn react with the silica to form the silicate slag, which floats on top of the heated mass. The resulting copper matte consisting of Cu2S is then roasting (metallurgy)|roasted to convert all sulfides into oxides:Greenwood& Earnshaw2nd :2 Cu2S + 3 O2 ? 2 Cu2O + 2 SO2 The cuprous oxide is converted to blister copper upon heating: :2 Cu2O ? 4 Cu + O2 The Sudbury Matte (metallurgy)|matte process converted only half the sulfide to oxide and then used this oxide to remove the rest of the sulfur as oxide. It was then electrolytically refined and the anode mud exploited for the platinum and gold it contained. This step exploits the relatively easy reduction of copper oxides to copper metal. Natural gas is blown across the blister to remove most of the remaining oxygen and electrorefining is performed on the resulting material to produce pure copper:cite book|last=Samans|first=Carl|title=Engineering metals and their alloys|year=1949|publisher=Macmillan|location=New York|oclc=716492542 :Cu2+ + 2 e– ? Cu
Recycling
Copper, like aluminium, is 100% recyclable without any loss of quality whether in a raw state or contained in a manufactured product. In volume, copper is the third most recycled metal after iron and aluminium. It is estimated that 80% of the copper ever mined is still in use today.cite web|url= http://www.copperinfo.com/environment/recycling.html|title=International Copper Association According to the International Resource Panel 's Metal Stocks in Society report , the global per capita stock of Copper in use in society is 35–55& nbsp;kg. Much of this is in more-developed countries (140–300& nbsp;kg per capita) rather than less-developed countries (30–40& nbsp;kg per capita).
The process of recycling copper follows roughly the same steps as is used to extract copper, but requires fewer steps. High purity scrap copper is melted in a furnace and then redox|reduced and cast into Billet (semi-finished product)|billet s and ingot s; lower purity scrap is refined by electroplating in a bath of sulfuric acid. http://www.copper.org/publications/newsletters/innovations/1998/06/recycle_overview.html "Overview of Recycled Copper" '& #39;Copper.org'& #39;. Copper.org (2010-08-25). Retrieved on 2011-11-08.
Compounds
See also|Category:Copper compounds
Binary compounds
As for other elements, the simplest compounds of copper are binary compounds, i.e. those containing only two elements. The principal ones are the oxides, sulfides and halide s. Both copper(I) oxide|cuprous and copper(II) oxide|cupric oxides are known. Among the numerous copper sulfide s, important examples include copper(I) sulfide and copper monosulfide|copper(II) sulfide .
The cuprous halides with copper(I) chloride|chlorine , copper(I) bromide|bromine , and copper(I) iodide|iodine are known, as are the cupric halides with copper(II) fluoride|fluorine , copper(II) chloride|chlorine , and copper(II) bromide|bromine . Attempts to prepare copper(II) iodide give cuprous iodide and iodine.cite book |last1=Holleman |first1=A. F. |last2=Wiberg |first2=N. |title=Inorganic Chemistry |year=2001 |publisher=Academic Press |location=San Diego |isbn=978-0-12-352651-9 :2 Cu2+ + 4 I- ? 2 CuI + I2
Coordination chemistry
Copper, like all metals, forms coordination complex es with ligand s. In aqueous solution, copper(II) exists as Cu(H2O)62+. This complex exhibits the fastest water exchange rate (speed of water ligands attaching and detaching) for any transition metal aquo complex . Adding aqueous sodium hydroxide causes the precipitation of light blue solid copper(II) hydroxide . A simplified equation is: :Cu2+ + 2 OH- ? Cu(OH)2 Ammonia solution|Aqueous ammonia results in the same precipitate. Upon adding excess ammonia, the precipitate dissolves, forming Schweizer's reagent|tetraamminecopper(II) : :Cu(H2O)4(OH)2 + 4 NH3 ? Cu(H2O)2(NH3)42+ + 2 H2O + 2 OH- Many other oxyanion s form complexes; these include copper(II) acetate , copper(II) nitrate , and copper(II) carbonate . Copper(II) sulfate forms a blue crystalline penta hydrate , which is the most familiar copper compound in the laboratory. It is used in a fungicide called the Bordeaux mixture .cite book|url = http://books.google.com/books? id=cItuoO9zSjkC& pg=PA623|page = 623|chapter = Nonsystematic (Contact) Fungicides|title = Ullmann's Agrochemicals|isbn = 978-3-527-31604-5|author1 = Wiley-Vch,|date = 2007-04-02
Polyol s, compounds containing more than one alcohol functional group , generally interact with cupric salts. For example, copper salts are used to test for reducing sugars . Specifically, using Benedict's reagent and Fehling's solution the presence of the sugar is signaled by a color change from blue Cu(II) to reddish copper(I) oxide.Ralph L. Shriner, Christine K. F. Hermann, Terence C. Morrill, David Y. Curtin, Reynold C. Fuson "The Systematic Identification of Organic Compounds" 8th edition, J. Wiley, Hoboken. ISBN 0-471-21503-1 Schweizer's reagent and related complexes with ethylenediamine and other amine s dissolve cellulose.Kay Saalwächter, Walther Burchard, Peter Klüfers, G. Kettenbach, and Peter Mayer, Dieter Klemm, Saran Dugarmaa "Cellulose Solutions in Water Containing Metal Complexes" Macromolecules 2000, 33, 4094–4107. DOI|10.1021/ma991893m Amino acid s form very stable chelate complexes with copper(II). Many wet-chemical tests for copper ions exist, one involving potassium ferrocyanide , which gives a brown precipitate with copper(II) salts.
Organocopper chemistry
Main|Organocopper compoundCompounds that contain a carbon-copper bond are known as organocopper compounds. They are very reactive towards oxygen to form copper(I) oxide and have Reactions of organocopper reagents|many uses in chemistry . They are synthesized by treating copper(I) compounds with Grignard reaction|Grignard reagents , terminal alkynes or organolithium compound|organolithium reagents ;"Modern Organocopper Chemistry" Norbert Krause, Ed., Wiley-VCH, Weinheim, 2002. ISBN 978-3-527-29773-3. in particular, the last reaction described produces a Gilman reagent . These can undergo substitution reaction|substitution with alkyl halides to form coupling reaction|coupling products ; as such, they are important in the field of organic synthesis . Copper(I) acetylide is highly shock-sensitive but is an intermediate in reactions such as the Cadiot-Chodkiewicz coupling cite journal|last1=Berná|first1=José|last2=Goldup|first2=Stephen|last3=Lee|first3=Ai-Lan|last4=Leigh|first4=David|last5=Symes|first5=Mark|last6=Teobaldi|first6=Gilberto|last7=Zerbetto|first7=Fransesco|title=Cadiot–Chodkiewicz Active Template Synthesis of Rotaxanes and Switchable Molecular Shuttles with Weak Intercomponent Interactions|journal=Angewandte Chemie|date=May 26, 2008|volume=120|issue=23|pages=4464–4468|doi=10.1002/ange.200800891 and the Sonogashira coupling .cite journal|title = The Sonogashira Reaction: A Booming Methodology in Synthetic Organic Chemistry|author = Rafael Chinchilla and Carmen Nájera|journal = Chemical Reviews |year = 2007|volume = 107|issue = 3|pages = 874–922|doi = 10.1021/cr050992x|pmid = 17305399 Nucleophilic conjugate addition|Conjugate addition to enone scite journal |year=1986 |title=An Addition of an Ethylcopper Complex to 1-Octyne: (E)-5-Ethyl-1,4-Undecadiene |journal= Organic Syntheses |volume=64 |page=1 |url= http://www.orgsyn.org/orgsyn/pdfs/CV7P0236.pdf |format=PDF and carbometalation|carbocupration of alkynescite journal |last1=Kharasch |first1=M. S. |last2=Tawney |first2=P. O. |year=1941|title=Factors Determining the Course and Mechanisms of Grignard Reactions. II. The Effect of Metallic Compounds on the Reaction between Isophorone and Methylmagnesium Bromide |journal=Journal of the American Chemical Society |volume=63 |issue=9 |pages=2308–2316 |doi=10.1021/ja01854a005 can also be achieved with organocopper compounds. Copper(I) forms a variety of weak complexes with alkene s and carbon monoxide , especially in the presence of amine ligands.cite journal|author=Sadako Imai et al.|title= 63Cu NMR Study of Copper(I) Carbonyl Complexes with Various Hydrotris(pyrazolyl)borates: Correlation between 63Cu Chemical Shifts and CO Stretching Vibrations|journal= Inorg. Chem.|year= 1998| volume =37|pages=3066–3070|doi=10.1021/ic970138r|issue=12
Copper(III) and copper(IV)
Complexes of copper(III) are frequent intermediates in reactions of organocopper compounds. Dicopper oxo complexes also feature copper(III).cite journal |last1=Lewis |first1=E. A. |last2=Tolman |first2=W. B. |year=2004 |title=Reactivity of Dioxygen-Copper Systems |journal=Chemical Reviews |volume=104 |pages=1047–1076 |doi=10.1021/cr020633r |issue=2 |pmid=14871149 Fluoride ligands, being highly basic, stabilize metal ions in high oxidation states; indeed, representative copper(III) and copper(IV) complex are fluorides. These include K3CuF6 and Cs2CuF6. With di- and tri peptide s, purple-colored complexes of copper(III) have been observed, this high oxidation state being stabilized by the deprotonated amide ligands.cite journal |last1=McDonald |first1=M. R. |last2=Fredericks |first2=F. C. |last3=Margerum |first3=D. W. |year=1997 |title=Characterization of Copper(III)-Tetrapeptide Complexes with Histidine as the Third Residue |journal=Inorganic Chemistry |volume=36 |pages=3119–3124|doi=10.1021/ic9608713|pmid=11669966 |issue=14
History
Copper Age
Main|Copper AgeCopper occurs naturally as native copper and was known to some of the oldest civilizations on record. It has a history of use that is at least 10,000 years old, and estimates of its discovery place it at 9000 BC in the Middle East;cite web|url= http://www.csa.com/discoveryguides/copper/overview.php|title=CSA – Discovery Guides, A Brief History of Copper|publisher=Csa.com|accessdate=2008-09-12 a copper pendant was found in northern Iraq that dates to 8700 BC.cite book|page = 56|title = Jewelrymaking through History: an Encyclopedia|publisher= Greenwood Publishing Group|year = 2007|isbn = 0-313-33507-9|author = Rayner W. Hesse There is evidence that gold and meteoric iron (but not iron smelting) were the only metals used by humans before copper.cite web|url= http://elements.vanderkrogt.net/element.php? sym=Cu|title=Copper|publisher=Elements.vanderkrogt.net|accessdate=2008-09-12 The history of copper metallurgy is thought to have followed the following sequence: 1) Work hardening|cold working of native copper , 2) Annealing (metallurgy)|annealing , 3) smelting , and 4) the Lost-wax casting|lost wax method . In southeastern Anatolia, all four of these metallurgical techniques appears more or less simultaneously at the beginning of the Neolothic c. 7500 BC.cite book|last=Renfrew|first=Colin|authorlink=Colin Renfrew, Baron Renfrew of Kaimsthorn|title=Before civilization: the radiocarbon revolution and prehistoric Europe|url= http://books.google.com/books? id=jJhHPgAACAAJ|accessdate=21 December 2011|year=1990|publisher=Penguin|isbn=978-0-14-013642-5 However, just as agriculture was independently invented in several parts of the world (including Pakistan, China, and the Americas) copper smelting was invented locally in several different places. It was probably discovered independently in China before 2800 BC, in Central America perhaps around 600 AD, and in West Africa about the 9th or 10th century AD.cite news|author = Cowen, R. |url = http://www.geology.ucdavis.edu/~cowen/~GEL115/115CH3.html|title = Essays on Geology, History, and People, Chapter 3: "Fire and Metals: Copper|accessdate =2009-07-07 Investment casting was invented in 4500–4000 BC in Southeast Asia and carbon dating has established mining at Alderley Edge in Cheshire , UK at 2280 to 1890 BC.cite book|author = Timberlake, S. and Prag A.J.N.W.|year = 2005|title = The Archaeology of Alderley Edge: Survey, excavation and experiment in an ancient mining landscape|location = Oxford|publisher = John and Erica Hedges Ltd.|page = 396 Ötzi the Iceman , a male dated from 3300–3200 BC, was found with an axe with a copper head 99.7% pure; high levels of arsenic in his hair suggest his involvement in copper smelting.cite web|title=CSA – Discovery Guides, A Brief History of Copper|url= http://www.csa.com/discoveryguides/copper/overview.php|work=CSA Discovery Guides|accessdate=29 April 2011 Experience with copper has assisted the development of other metals; in particular, copper smelting led to the discovery of bloomery|iron smelting . Production in the Old Copper Complex in Michigan and Wisconsin is dated between 6000 and 3000 BC.Pleger, Thomas C. "A Brief Introduction to the Old Copper Complex of the Western Great Lakes: 4000–1000 BC", http://books.google.com/books? id=6NUQNQAACAAJ Proceedings of the Twenty-seventh Annual Meeting of the Forest History Association of Wisconsin , Oconto, Wisconsin, October 5, 2002, pp. 10–18.Emerson, Thomas E. and McElrath, Dale L. http://books.google.com/books? id=awsA08oYoskC& pg=PA709 Archaic Societies: Diversity and Complexity Across the Midcontinent , SUNY Press, 2009 ISBN 1-4384-2701-8. Natural bronze, a type of copper made from ores rich in silicon, arsenic, and (rarely) tin, came into general use in the Balkans around 5500 BC. Previously the only tool made of copper had been the awl, used for punching holes in leather and gouging out peg-holes for wood joining. However, the introduction of a more robust form of copper led to the widespread use, and large-scale production of heavy metal tools, including axes, adze s, and axe-adzes.Citation needed|date=January 2012
Bronze Age
Main|Bronze AgeAlloying copper with tin to make bronze was first practiced about 4000 years after the discovery of copper smelting, and about 2000 years after "natural bronze" had come into general use. Bronze artifacts from Sumer ian cities and Ancient Egypt|Egyptian artifacts of copper and bronze alloys date to 3000 BC.cite book|pages = 13, 48–66|title = Encyclopaedia of the History of Technology|author = McNeil, Ian |publisher = Routledge|year = 2002|location = London ; New York|isbn = 0-203-19211-7 The Bronze Age began in Southeastern Europe around 3700 - 3300 BC, in Northwestern Europe about 2500 BC. It ended with the beginning of the Iron Age, 2000-1000 BC in the Near East, 600 BC in Northern Europe. The transition between the Neolithic period and the Bronze Age was formerly termed the Chalcolithic period (copper-stone), with copper tools being used with stone tools. This term has gradually fallen out of favor because in some parts of the world the Calcholithic and Neolithic are coterminous at both ends. Brass, an alloy of copper and zinc, is of much more recent origin. It was known to the Greeks, but became a significant supplement to bronze during the Roman Empire.
Antiquity and Middle Ages
In Greece, copper was known by the name chalkos (?a????). It was an important resource for the Romans, Greeks and other ancient peoples. In Roman times, it was known as aes Cyprium , aes being the generic Latin term for copper alloys and Cyprium from Cyprus , where much copper was mined. The phrase was simplified to cuprum , hence the English copper . Aphrodite and Venus (goddess)|Venus represented copper in mythology and alchemy, due to its lustrous beauty, its ancient use in producing mirrors, and its association with Cyprus, which was sacred to the goddess. The seven heavenly bodies known to the ancients were associated with the seven metals known in antiquity, and Venus was assigned to copper.cite journal|title = The Nomenclature of Copper and its Alloys|author = Rickard, T. A. |journal = The Journal of the Royal Anthropological Institute of Great Britain and Ireland|volume = 62|year = 1932|page=281|jstor = 2843960|doi = 10.2307/2843960|publisher = The Journal of the Royal Anthropological Institute of Great Britain and Ireland, Vol. 62
Britain's first use of brass occurred around the 3rd–2nd century BC. In North America, copper mining began with marginal workings by Native Americans. Native copper is known to have been extracted from sites on Isle Royale with primitive stone tools between 800 and 1600.cite journal|title = The State of Our Knowledge About Ancient Copper Mining in Michigan|journal = The Michigan Archaeologist|volume = 41|page = 119|author = Martin, Susan R. |year = 1995|url = http://www.ramtops.co.uk/copper.html|issue =2–3 Copper metallurgy was flourishing in South America, particularly in Peru around 1000 AD; it proceeded at a much slower rate on other continents. Copper burial ornamentals from the 15th century have been uncovered, but the metal's commercial production did not start until the early 20th century.
The cultural role of copper has been important, particularly in currency. Romans in the 6th through 3rd centuries BC used copper lumps as money. At first, the copper itself was valued, but gradually the shape and look of the copper became more important. Julius Caesar had his own coins made from brass, while Augustus|Octavianus Augustus Caesar 's coins were made from Cu-Pb-Sn alloys. With an estimated annual output of around 15,000 t, Roman metallurgy|Roman copper mining and smelting activities reached a scale unsurpassed until the time of the Industrial Revolution ; the Roman province|provinces most intensely mined were those of Hispania , Cyprus and in Central Europe.cite journal|doi = 10.1126/science.272.5259.246|title = History of Ancient Copper Smelting Pollution During Roman and Medieval Times Recorded in Greenland Ice|pages = 246–249 (247f.)|year = 1996|last1 = Hong|first1 = S.|last2 = Candelone|first2 = J.-P.|issue = 5259|last3 = Patterson|first3 = C. C.|last4 = Boutron|first4 = C. F.|journal = Science|volume = 272|bibcode = 1996Sci...272..246H cite journal|last = de Callataÿ|first = François|year = 2005|title = The Graeco-Roman Economy in the Super Long-Run: Lead, Copper, and Shipwrecks|journal = Journal of Roman Archaeology|volume = 18|pages = 361–372 (366–369)
The gates of the Temple of Jerusalem used Corinthian bronze made by depletion gilding. It was most prevalent in Alexandria, where alchemy is thought to have begun.cite journal|url = http://www.goldbulletin.org/downloads/JACOB_2_33.PDF|title = Corinthian Bronze and the Gold of the Alchemists|author6 = Sudhölter, Ernst J. R.|author5 = Zuilhof, Han|author4 = van Dijk, Marinus|journal = Macromolecules|author3 = Barentsen, Helma M.|issue = 2|author2 = Warman, John M.|volume = 33|first = D. M.|last = Jacobson|year = 2000|page=60|doi = 10.1021/ma9904870|bibcode = 2000MaMol..33...60S In ancient India, copper was used in the holistic medical science Ayurveda for surgical instruments and other medical equipment. Ancient Egyptians (~2400 BC) used copper for sterilizing wounds and drinking water, and later on for headaches, burns, and itching. The Baghdad Battery , with copper cylinders soldered to lead, dates back to 248 BC to AD 226 and resembles a galvanic cell, leading people to believe this was the first battery; the claim has not been verified.cite web|title=World Mysteries – Strange Artifacts, Baghdad Battery|url= http://www.world-mysteries.com/sar_11.htm|work=World-Mysteries.com|accessdate=22 April 2011
Modern period
The Great Copper Mountain was a mine in Falun, Sweden, that operated from the 10th century to 1992. It produced two thirds of Europe's copper demand in the 17th century and helped fund many of Sweden's wars during that time.cite book|url = http://books.google.com/books? id=4yp-x3TzDnEC& pg=PA60|page = 60|title = Mining in World History|isbn = 978-1-86189-173-0|author1 = Lynch, Martin|date = 2004-04-15 It was referred to as the nation's treasury; Sweden had a History of copper currency in Sweden|copper backed currency .cite web|title=Gold: prices, facts, figures and research: A brief history of money|url= http://www.galmarley.com/FAQs_pages/monetary_history_faqs.htm#Scandinavian%20copper%20money|accessdate=22 April 2011
The uses of copper in art were not limited to currency: it was used by Renaissance sculptors, in photographic technology known as the daguerreotype , and the Statue of Liberty . Copper plating and copper sheathing for ships' hulls was widespread; the ships of Christopher Columbus were among the earliest to have this feature.cite web|title = Copper History|url = http://www.copperinfo.com/aboutcopper/history.html|accessdate = 2008-09-04 The Norddeutsche Affinerie in Hamburg was the first modern electroplating plant starting its production in 1876.cite journal|doi = 10.1002/adem.200400403|title = Process Optimization in Copper Electrorefining|year = 2004|author = Stelter, M.|journal = Advanced Engineering Materials|volume = 6|issue = 7|page=558|last2 = Bombach|first2 = H. The German scientist Gottfried Osann invented powder metallurgy in 1830 while determining the metal's atomic mass; around then it was discovered that the amount and type of alloying element (e.g., tin) to copper would affect bell tones. Flash smelting was developed by Outokumpu in Finland and first applied at Harjavalta in 1949; the energy-efficient process accounts for 50% of the world’s primary copper production.cite web|url = http://www.outokumpu.com/files/Technology/Documents/Newlogobrochures/FlashSmelting.pdf|title = Outokumpu Flash Smelting|publisher = Outokumpu |page = 2
The Intergovernmental Council of Copper Exporting Countries , formed in 1967 with Chile, Peru, Zaire and Zambia, played a similar role for copper as OPEC does for oil. It never achieved the same influence, particularly because the second-largest producer, the United States, was never a member; it was dissolved in 1988.cite journal |author=Karen A. Mingst |year=1976 |title=Cooperation or illusion: an examination of the intergovernmental council of copper exporting countries |journal=International Organization |volume=30 |issue=2 |pages=263–287 |doi=10.1017/S0020818300018270
Applications
The major applications of copper are in electrical wires (60%), roofing and plumbing (20%) and industrial machinery (15%). Copper is mostly used as a metal, but when a higher hardness is required it is combined with other elements to make an alloy (5% of total use) such as brass and bronze . A small part of copper supply is used in production of compounds for nutritional supplements and fungicides in agriculture.cite web|title = Copper|publisher = American Elements|year = 2008|url = http://www.americanelements.com/cu.html|accessdate = 2008-07-12 Machining of copper is possible, although it is usually necessary to use an alloy for intricate parts to get good machinability characteristics.
Electronics and related devices
The electrical properties of copper are exploited in copper wire and cable|copper wire s and devices such as electromagnet s. Integrated circuit s and printed circuit board s increasingly feature copper in place of aluminium because of its superior electrical conductivity (see Copper interconnect for main article) ; heat sink s and heat exchanger s use copper as a result of its superior heat dissipation capacity to aluminium. Vacuum tube s, cathode ray tube s, and the magnetron s in microwave ovens use copper, as do Waveguide|wave guide s for microwave radiation.cite web|title=Accelerator: Waveguides (SLAC VVC)|url= http://www2.slac.stanford.edu/vvc/accelerators/waveguide.html|work=SLAC Virtual Visitor Center|accessdate=29 April 2011
Electric motors
Main|Copper in energy efficient motors Copper’s greater Copper wire and cable#Electrical conductivity|conductivity versus other metallic materials enhances the electrical energy efficiency of motors .IE3 energy-saving motors, Engineer Live, http://www.engineerlive.com/Design-Engineer/Motors_and_Drives/IE3_energy-saving_motors/22687/ This is important because motors and motor-driven systems account for 43%-46% of all global electricity consumption and 69% of all electricity used by industry.Energy-efficiency policy opportunities for electric motor-driven systems, International Energy Agency, 2011 Working Paper in the Energy Efficiency Series, by Paul Waide and Conrad U. Brunner, OECD/IEA 2011 Increasing the mass and cross section of copper in a Inductor|coil increases the electrical energy efficiency of the motor. Copper in energy efficient motors#Copper die-cast rotors|Copper motor rotors , a new technology designed for motor applications where energy savings are prime design objectives,Fuchsloch, J. and E.F. Brush, (2007), “Systematic Design Approach for a New Series of Ultra-NEMA Premium Copper Rotor Motors”, in EEMODS 2007 Conference Proceedings, 10-15 June,Beijing.Copper motor rotor project; Copper Development Association; http://www.copper.org/applications/electrical/motor-rotor are enabling general-purpose induction motor s to meet and exceed National Electrical Manufacturers Association (NEMA) premium efficiency standards.NEMA Premium Motors, The Association of Electrical Equipment and Medical Imaging Manufacturers; http://www.nema.org/gov/energy/efficiency/premium/
Architecture and industry
Because of the waterproof nature of copper, it has been used as the Metal roof|roofing material of many buildings since ancient times. The green color on these buildings is due to a long-term chemical reaction: copper is first oxidized to copper(II) oxide, then to cuprous and cupric sulfide and finally to copper(II) carbonate, also called verdigris, which is highly corrosion-resistant.cite web|last = Berg|first = Jan|title = Why did we paint the library's roof? |url = http://www.deforest.lib.wi.us/FAQS.htm|accessdate = 2007-09-20 |archiveurl = http://web.archive.org/web/20070625065039/ http://www.deforest.lib.wi.us/FAQS.htm |archivedate = 2007-06-25 The copper used in this application is phosphorus deoxidized copper (Cu-DHP). ASTM B 152, Standard Specification for Copper Sheet, Strip, Plate, and Rolled Bar. Lightning rod s use copper as a means to divert electric current throughout the ground instead of destroying the main structure.cite book|title = Physics 1, Jacaranda Science. 3rd Ed.|year =2009 Copper has excellent brazing and soldering properties and can be welded ; the best results are obtained with gas metal arc welding .cite book|author = Davis, Joseph R. |title = Copper and Copper Alloys|pages = 3–6, 266|publisher = ASM International|year = 2001|isbn = 0-87170-726-8
Copper in alloys
See also|List of copper alloysNumerous copper alloys exist, many with important uses. Brass is an alloy of copper and zinc and bronze usually refers to copper-tin alloys, but can refer to any alloy of copper such as aluminium bronze . Copper is one of the most important constituents of carat (purity)|carat silver and gold alloys and carat solders used in the jewelry industry, modifying the color, hardness and melting point of the resulting alloys.cite web|url = http://www.utilisegold.com/jewellery_technology/colours/colour_alloys/|accessdate = 2009-06-06|title = Gold Jewellery Alloys|publisher = World Gold Council
The alloy of copper and nickel, called cupronickel , is used in low-denomination statue|statuary coins , often for the outer cladding. The US 5-cent coin called nickel consists of 75% copper and 25% nickel and has a homogeneous composition. The 90% copper/10% nickel alloy is remarkable by its resistance to corrosion and is used in various parts being exposed to seawater. Alloys of copper with aluminium (about 7%) have a pleasant golden color and are used in decorations. Copper alloys with tin are part of lead-free solders. http://www.balverzinn.com/downloads/Solder_Sn97Cu3.pdf Balver Zinn Solder Sn97Cu3. (PDF) . balverzinn.com. Retrieved on 2011-11-08.
Antibiofouling applications
Main|Copper alloys in aquaculture|Copper sheathingCopper has long been used as a biostatic surface to line parts of ships to protect against barnacle s and mussel s. It was originally used pure, but has since been superseded by Muntz metal . Bacteria will not grow on a copper surface because it is biostatic. Similarly, as discussed in copper alloys in aquaculture , copper alloys have become important netting materials in the aquaculture industry for the fact that they are antimicrobial and prevent biofouling even in extreme conditionsEdding, Mario E., Flores, Hector, and Miranda, Claudio, (1995), Experimental Usage of Copper-Nickel Alloy Mesh in Mariculture. Part 1: Feasibility of usage in a temperate zone; Part 2: Demonstration of usage in a cold zone; Final report to the International Copper Association Ltd. and have strong structural and corrosion-resistant http://www.copper.org/applications/cuni/pdf/marine_aquaculture.pdf Corrosion Behaviour of Copper Alloys used in Marine Aquaculture. (PDF) . copper.org. Retrieved on 2011-11-08. properties in marine environments.
Other uses
Copper compounds in liquid form are used as a wood preservative, particularly in treating original portion of structures during restoration of damage due to dry rot . Together with zinc, copper wires may be placed over non-conductive roofing materials to discourage the growth of moss. Textile fibers use copper to create antimicrobial protective fabrics,cite web|title = Antimicrobial Products that Shield Against Bacteria and Fungi|publisher = Cupron, Inc.|year = 2008|url = http://www.cupron.com/|accessdate = 2008-07-13 as do ceramic glaze s, stained glass and musical instrument s. Electroplating commonly uses copper as a base for other metals such as nickel.
Copper is one of three metals, along with lead and silver, used in a museum materials testing procedure called the Oddy test . In this procedure, copper is used to detect chlorides, oxides, and sulfur compounds.
Copper is also commonly found in jewelry, and folklore states that copper bracelets relieve arthritis symptoms, though this is not proven.cite journal|last1=Walker|first1=W. R.|last2=Keats|first2=D. M.|title=An investigation of the therapeutic value of the 'copper bracelet'-dermal assimilation of copper in arthritic/rheumatoid conditions|journal=Agents Actions|year=1976|volume=6|issue=4|pages=454–459|pmid=961545
Biological role
Main|Copper in health Copper proteins have diverse roles in biological electron transport and oxygen transportation, processes that exploit the easy interconversion of Cu(I) and Cu(II).S. J. Lippard, J. M. Berg “Principles of bioinorganic chemistry” University Science Books: Mill Valley, CA; 1994. ISBN 0-935702-73-3. The biological role for copper commenced with the appearance of oxygen in earth's atmosphere.cite journal|pmid=10821735|author=Decker, H. and Terwilliger, N. |title=COPs and Robbers: Putative evolution of copper oxygen-binding proteins|journal= Journal of Experimental Biology |volume=203|pages=1777–1782 |year=2000|issue=Pt 12 The protein hemocyanin is the oxygen carrier in most mollusk s and some arthropod s such as the horseshoe crab ( Limulus polyphemus ).cite web|title = Fun facts|work = Horseshoe crab|publisher = University of Delaware|url = http://www.ocean.udel.edu/horseshoecrab/funFacts.html|accessdate = 2008-07-13 Because hemocyanin is blue, these organisms have blue blood, not the red blood found in organisms that rely on hemoglobin for this purpose. Structurally related to hemocyanin are the laccase s and tyrosinase s. Instead of reversibly binding oxygen, these proteins hydroxylate substrates, illustrated by their role in the formation of lacquer s.
Copper is also a component of other proteins associated with the processing of oxygen. In cytochrome c oxidase , which is required for aerobic Cellular respiration|respiration , copper and iron cooperate in the reduction of oxygen. Copper is also found in many superoxide dismutase s, proteins that detoxify superoxide s, by converting it (by disproportionation ) to oxygen and hydrogen peroxide : :2 HO2 ? H2O2 + O2
Several copper proteins, such as the "blue copper proteins", do not interact directly with substrates, hence they are not enzymes. These proteins relay electrons by the process called electron transfer .
Dietary needs
Copper is an essential trace element in plants and animals, but not some microorganisms. The human body contains copper at a level of about 1.4 to 2.1& nbsp;mg per kg of body mass.cite web|url = http://www.copper.org/consumers/health/papers/cu_health_uk/cu_health_uk.html|title = Amount of copper in the normal human body, and other nutritional copper facts|accessdate = April 3, 2009 Stated differently, the Recommended Dietary Allowance|RDA for copper in normal healthy adults is quoted as 0.97& nbsp;mg/day and as 3.0& nbsp;mg/day.cite book|publisher = National Research Council, Food Nutrition Board, NRC/NAS|title= Copper. In: Recommended Dietary Allowances|location = Washington, D.C.|year =1980|pages = 151–154 Copper is absorbed in the gut, then transported to the liver bound to serum albumin|albumin .cite journal|last1=Adelstein|first1=S. J.|last2=Vallee|first2=B. L.|title=Copper metabolism in man|journal=New England Journal of Medicine|year=1961|volume=265|pages=892–897|doi=10.1056/NEJM196111022651806|issue=18 After processing in the liver, copper is distributed to other tissues in a second phase. Copper transport here involves the protein ceruloplasmin , which carries the majority of copper in blood. Ceruloplasmin also carries copper that is excreted in in milk, and is particularly well-absorbed as a copper source. cite journal | url = http://www.ajcn.org/content/67/5/965S.abstract | title = Copper transport | pmid = 9587137 | date = 1998-05-01 | author1 = M C Linder | journal = The American Journal of Clinical Nutrition | volume = 67 | issue = 5 | pages = 965S–971S | last2 = Wooten | first2 = L | last3 = Cerveza | first3 = P | last4 = Cotton | first4 = S | last5 = Shulze | first5 = R | last6 = Lomeli | first6 = N . Copper in the body normally undergoes enterohepatic circulation (about 5 mg a day, vs. about 1 mg per day absorbed in the diet and excreted from the body), and the body is able to excrete some excess copper, if needed, via bile , which carries some copper out of the liver that is not then reabsorbed by the intestine.cite journal | jstor =20170553 | pmid = 775938 | year =1976 | last1 =Frieden | first1 =E | last2 =Hsieh | first2 =HS | title =Ceruloplasmin: The copper transport protein with essential oxidase activity | volume =44 | pages =187–236 | journal =Advances in enzymology and related areas of molecular biologycite journal | url = http://ajpcell.physiology.org/content/258/1/C140 | pmid =2301561 | title =Copper transport from ceruloplasmin: Characterization of the cellular uptake mechanism | date =1990-01-01 | author1 =S. S. Percival | journal =American Journal of Physiology - Cell Physiology | volume =258 | issue =1 | pages =C140–6 | last2 =Harris | first2 =ED
Copper-based disorders
Because of its role in facilitating iron uptake, copper deficiency can produce anemia -like symptoms, neutropenia , bone abnormalities, hypopigmentation, impaired growth, increased incidence of infections, osteoporosis, and abnormalities in glucose and cholesterol metabolism. Conversely, an accumulation of copper in body tissues causes Wilson's disease . Severe deficiency can be found by testing for low plasma or serum copper levels, low ceruloplasmin, and low red blood cell superoxide dismutase levels; these are not sensitive to marginal copper status. The "cytochrome c oxidase activity of leucocytes and platelets" has been stated as another factor in deficiency, but the results have not been confirmed by replication.cite journal|author=Bonham, M. et al. |year=2002|title=The immune system as a physiological indicator of marginal copper status? |journal=British Journal of Nutrition|doi=10.1079/BJN2002558|pmid=12010579|volume=87|issue=5|pages=393–403
Antimicrobial applications
Main|Antimicrobial properties of copper|Antimicrobial copper-alloy touch surfaces Numerous antimicrobial efficacy studies have been conducted in the past 10 years regarding copper’s efficacy to destroy a wide range of bacteria, as well as influenza A virus , Adenoviridae|adenovirus , and Fungus|fungi .
Antimicrobial copper-alloy touch surfaces|Copper-alloy touch surfaces have natural intrinsic properties to destroy a wide range of microorganisms (e.g., Escherichia coli|E. coli O157:H7, methicillin -resistant Staphylococcus aureus ( MRSA ), Staphylococcus , Clostridium difficile , influenza A virus , Adenoviridae|adenovirus , and Fungus|fungi ). http://coppertouchsurfaces.org/antimicrobial/bacteria/index.html Copper Touch Surfaces. Copper Touch Surfaces. Retrieved on 2011-11-08. Some 355 copper alloys were proven to kill more than 99.9% of disease-causing bacteria within just two hours when cleaned regularly. http://www.epa.gov/pesticides/factsheets/copper-alloy-products.htm EPA registers copper-containing alloy products, May 2008 The United States Environmental Protection Agency (EPA) has approved the registrations of these copper alloys as “ antimicrobial materials with public health benefits," which allows manufacturers to legally make claims as to the positive public health benefits of products made with registered antimicrobial copper alloys. In addition, the EPA has approved a long list of antimicrobial copper products made from these alloys, such as bedrails, handrails , over-bed tables, sinks , faucets , door knobs , toilet hardware, computer keyboards , health club equipment, shopping cart handles, etc. (for a comprehensive list of products, see: Antimicrobial copper-alloy touch surfaces#Approved products ). Copper doorknobs are used by hospitals to reduce the transfer of disease, and Legionellosis|Legionnaires' disease is suppressed by copper tubing in plumbing systems.cite journal|last1=Biurrun|first1=Amaya|last2=Caballero|first2=Luis|last3=Pelaz|first3=Carmen|last4=León|first4=Elena|last5=Gago|first5=Alberto|title=Treatment of a Legionella pneumophila-Colonized Water Distribution System Using Copper-Silver Ionization and Continuous Chlorination|journal=Infection Control and Hospital Epidemiology|year=1999|volume=20|issue=6|pages=426–428|doi=10.1086/501645|jstor=30141645|pmid=10395146 Antimicrobial copper alloy products are now being installed in healthcare facilities in the U.K., Ireland, Japan, Korea, France, Denmark, and Brazil and in the subway transit system in Santiago, Chile, where copper-zinc alloy handrails will be installed in some 30 stations between 2011–2014. http://www.rail.co/2011/07/22/chilean-subway-protected-with-antimicrobial-copper Chilean subway protected with Antimicrobial Copper – Rail News from. rail.co. Retrieved on 2011-11-08. http://construpages.com.ve/nl/noticia_nl.php? id_noticia=3032& language=en Codelco to provide antimicrobial copper for new metro lines (Chile). Construpages.com.ve. Retrieved on 2011-11-08. http://www.antimicrobialcopper.com/media/149689/pr811-chilean-subway-installs-antimicrobial-copper.pdf PR 811 Chilean Subway Installs Antimicrobial Copper. (PDF). antimicrobialcopper.com. Retrieved on 2011-11-08.
Precautions
NFPA 704
NFPA 704
Fire diamond for copper metal
Main|Copper toxicity Gram quantities of various copper salts have been taken in suicide attempts and produced acute copper toxicity in humans, possibly due to redox cycling and the generation of reactive oxygen species that damage DNA .cite journal|last1=Li|first1=Yunbo|last2=Trush|first2=Michael|last3=Yager|first3=James|title=DNA damage caused by reactive oxygen species originating from a copper-dependent oxidation of the 2-hydroxy catechol of estradiol|journal=Carcinogenesis|year=1994|volume=15|issue=7|pages=1421–1427|doi=10.1093/carcin/15.7.1421|pmid=8033320 Corresponding amounts of copper salts (30& nbsp;mg/kg) are toxic in animals.cite web|title = Pesticide Information Profile for Copper Sulfate|url = http://pmep.cce.cornell.edu/profiles/extoxnet/carbaryl-dicrotophos/copper-sulfate-ext.html|publisher = Cornell University|accessdate=2008-07-10 A minimum dietary value for healthy growth in rabbits has been reported to be at least 3 Parts-per notation|ppm in the diet.cite journal|author=Hunt, Charles E. and William W. Carlton |pmid=5841854 |year=1965|title=Cardiovascular Lesions Associated with Experimental Copper Deficiency in the Rabbit|journal=Journal of Nutrition |volume=87|pages=385–394|issue=4 However, higher concentrations of copper (100 ppm, 200 ppm, or 500 ppm) in the diet of rabbits may favorably influence Feed conversion ratio|feed conversion efficiency , growth rates, and carcass dressing percentages.cite journal|url= http://riunet.upv.es/handle/10251/10503? locale-attribute=en|author=Ayyat M.S., Marai I.F.M., Alazab A.M. |year=1995|title=Copper-Protein Nutrition of New Zealand White Rabbits under Egyptian Conditions|journal= World Rabbit Science |volume=3|pages=113–118
Chronic copper toxicity does not normally occur in humans because of transport systems that regulate absorption and excretion. Autosomal recessive mutations in copper transport proteins can disable these systems, leading to Wilson's disease with copper accumulation and cirrhosis of the liver in persons who have inherited two defective genes.
See also
Electroplating
Erosion corrosion of copper water tubes
* Cold water pitting of copper tube
Metal theft
* Operation Tremor
Smelter
Peak copper
:Category:Copper mining companies
* Anaconda Copper
* Antofagasta PLC
* Bingham Canyon Mine
* Codelco
References
Reflist|colwidth=30em
Notes
in pure water, or acidic or alkali conditions. Copper in neutral water is more noble than hydrogen.
in water containing sulfide
in 10 M ammonia solution
in a chloride solution
Further reading
cite book|title=Handbook of Copper Pharmacology and Toxicology|editor=Massaro, Edward J.|publisher=Humana Press|year=2002|isbn=0-89603-943-9
cite web|title= Copper: Technology & Competitiveness (Summary) Chapter 6: Copper Production Technology|publisher=Office of Technology Assessment|year=2005|url= http://www.princeton.edu/~ota/disk2/1988/8808/880808.PDF
Current Medicinal Chemistry, Volume 12, Number 10, May 2005, pp.& nbsp;1161–1208(48) Metals, Toxicity and Oxidative Stress
cite book|title=Materials Science and Engineering: an Introduction, 6th Ed.|author=William D. Callister|publisher=Wiley, New York|year=2003|isbn=0-471-73696-1|location=Table 6.1, p. 137
http://www.memsnet.org/material/coppercubulk/ Material: Copper (Cu), bulk, MEMS and Nanotechnology Clearinghouse.
cite journal|author=Kim BE, Nevitt T, Thiele DJ|title=Mechanisms for copper acquisition, distribution and regulation|journal=Nat. Chem. Biol.|volume=4|page=176|year=2008|pmid=18277979|doi=10.1038/nchembio.72|url= http://www.nature.com/nchembio/journal/v4/n3/abs/nchembio.72.html|issue=3|pages=176–85
http://www.rsc.org/Publishing/Journals/cb/Volume/2009/1/Copper.asp Copper transport disorders: an Instant insight from the Royal Society of Chemistry
External links
Commons|CopperWiktionary|copper
http://www.npi.gov.au/substances/copper/index.html National Pollutant Inventory – Copper and compounds fact sheet
http://www.weldaloy.com/resource_center.php Copper Resource Page. Includes 12 PDF files detailing the material properties of various kinds of copper, as well as various guides and tools for the copper industry.
http://www.copper.org The Copper Development Association has an extensive site of properties and uses of copper; it also maintains a http://www.brass.org web site dedicated to brass , a copper alloy.
http://www.3rd1000.com/elements/Copper.htm The Third Millennium Online page on Copper
http://www.indexmundi.com/commodities/? commodity=copper& months=300 Price history of copper, according to the IMF
Clearcompact periodic tableChemical elements named after placesCopper compoundsJewellery Category:Copper| Category:Chemical elements Category:Dietary minerals Category:Electrical conductors Category:Symbols of Utah Category:Transition metals Category:Biology and pharmacology of chemical elements Category:Cubic minerals
