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Group 11, by modern IUPAC numbering,[1] is a group of chemical elements in the periodic table, consisting of copper (Cu), silver (Ag), gold (Au), and roentgenium (Rg), although no chemical experiments have yet been carried out to confirm that roentgenium behaves like the heavier homologue to gold. Group 11 is also known as the coinage metals, due to their usage in minting coins[2]—while the rise in metal prices mean that silver and gold are no longer used for circulating currency, remaining in use for bullion, copper remains a common metal in coins to date, either in the form of copper clad coinage or as part of the cupronickel alloy.[citation needed] They were most likely the first three elements discovered.[3] Copper, silver, and gold all occur naturally in elemental form.[4][5]

Group 11 in the periodic table
Hydrogen Helium
Lithium Beryllium Boron Carbon Nitrogen Oxygen Fluorine Neon
Sodium Magnesium Aluminium Silicon Phosphorus Sulfur Chlorine Argon
Potassium Calcium Scandium Titanium Vanadium Chromium Manganese Iron Cobalt Nickel Copper Zinc Gallium Germanium Arsenic Selenium Bromine Krypton
Rubidium Strontium Yttrium Zirconium Niobium Molybdenum Technetium Ruthenium Rhodium Palladium Silver Cadmium Indium Tin Antimony Tellurium Iodine Xenon
Caesium Barium Lanthanum Cerium Praseodymium Neodymium Promethium Samarium Europium Gadolinium Terbium Dysprosium Holmium Erbium Thulium Ytterbium Lutetium Hafnium Tantalum Tungsten Rhenium Osmium Iridium Platinum Gold Mercury (element) Thallium Lead Bismuth Polonium Astatine Radon
Francium Radium Actinium Thorium Protactinium Uranium Neptunium Plutonium Americium Curium Berkelium Californium Einsteinium Fermium Mendelevium Nobelium Lawrencium Rutherfordium Dubnium Seaborgium Bohrium Hassium Meitnerium Darmstadtium Roentgenium Copernicium Nihonium Flerovium Moscovium Livermorium Tennessine Oganesson
group 10  group 12
IUPAC group number 11
Name by element copper group
Trivial name coinage metals
CAS group number
(US, pattern A-B-A)
IB
old IUPAC number
(Europe, pattern A-B)
IB

↓ Period
4
Image: Native copper
Copper (Cu)
29 Transition metal
5
Image: Silver dendritic crystal
Silver (Ag)
47 Transition metal
6
Image: Gold crystals
Gold (Au)
79 Transition metal
7 Roentgenium (Rg)
111 unknown chemical properties

Legend

primordial element
synthetic element

History

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All three stable elements of the group have been known since prehistoric times,[2] as all of them occur in metallic form in nature and no extraction metallurgy is necessary to produce them.

Copper was known and used around 4000 BC and many items, weapons and materials were made and used with copper.

The first evidence of silver mining dates back to 3000 BC, in Turkey and Greece, according to the RSC. Ancient people even figured out how to refine silver.

The earliest recorded metal employed by humans appears to be gold, which can be found free or "native". Small amounts of natural gold have been found in Spanish caves used during the late Paleolithic period, c. 40,000 BC. Gold artifacts made their first appearance at the very beginning of the pre-dynastic period in Egypt, at the end of the fifth millennium BC and the start of the fourth, and smelting was developed during the course of the 4th millennium BC; gold artifacts appear in the archeology of Lower Mesopotamia during the early 4th millennium BC.

Roentgenium was made in 1994 by bombarding nickel-64 atoms into bismuth-209 to make roentgenium-272.[6]

Characteristics

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Like other groups, the members of this family show patterns in electron configuration, especially in the outermost shells, resulting in trends in chemical behavior, although roentgenium is probably an exception:

Z Element No. of electrons/shell
29 copper 2, 8, 18, 1
47 silver 2, 8, 18, 18, 1
79 gold 2, 8, 18, 32, 18, 1
111 roentgenium 2, 8, 18, 32, 32, 17, 2 (predicted)

All group 11 elements are relatively inert, corrosion-resistant metals. Copper and gold are colored, but silver is not. Roentgenium is expected to be silvery, though it has not been produced in large enough amounts to confirm this.

These elements have low electrical resistivity so they are used for wiring. Copper is the cheapest and most widely used. Bond wires for integrated circuits are usually gold. Silver and silver-plated copper wiring are found in some special applications.

Occurrence

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Copper occurs in its native form in Chile, China, Mexico, Russia and the USA. Various natural ores of copper are: copper pyrites (CuFeS2), cuprite or ruby copper (Cu2O), copper glance (Cu2S), malachite (Cu(OH)2CuCO3), and azurite (Cu(OH)22CuCO3).

Copper pyrite is the principal ore, and yields nearly 76% of the world production of copper.

Production

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Silver is found in native form, as an alloy with gold (electrum), and in ores containing sulfur, arsenic, antimony or chlorine. Ores include argentite (Ag2S), chlorargyrite (AgCl) which includes horn silver, and pyrargyrite (Ag3SbS3). Silver is extracted using the Parkes process.

Applications

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These metals, especially silver, have unusual properties that make them essential for industrial applications outside of their monetary or decorative value. They are all excellent conductors of electricity. The most conductive (by volume) of all metals are silver, copper and gold in that order. Silver is also the most thermally conductive element, and the most light reflecting element. Silver also has the unusual property that the tarnish that forms on silver is still highly electrically conductive.

Copper is used extensively in electrical wiring and circuitry. Gold contacts are sometimes found in precision equipment for their ability to remain corrosion-free. Silver is used widely in mission-critical applications as electrical contacts, and is also used in photography (because silver nitrate reverts to metal on exposure to light), agriculture, medicine, audiophile and scientific applications.

Gold, silver, and copper are quite soft metals and so are easily damaged in daily use as coins. Precious metal may also be easily abraded and worn away through use. In their numismatic functions these metals must be alloyed with other metals to afford coins greater durability. The alloying with other metals makes the resulting coins harder, less likely to become deformed and more resistant to wear.

Gold coins: Gold coins are typically produced as either 90% gold (e.g. with pre-1933 US coins), or 22 carat (91.66%) gold (e.g. current collectible coins and Krugerrands), with copper and silver making up the remaining weight in each case. Bullion gold coins are being produced with up to 99.999% gold (in the Canadian Gold Maple Leaf series).

Silver coins: Silver coins are typically produced as either 90% silver – in the case of pre-1965 US minted coins (which were circulated in many countries), or sterling silver (92.5%) coins for pre-1920 British Commonwealth and other silver coinage, with copper making up the remaining weight in each case. Old European coins were commonly produced with 83.5% silver. Modern silver bullion coins are often produced with purity varying from 99.9% to 99.999%.

Copper coins: Copper coins are often of quite high purity, around 97%, and are usually alloyed with small amounts of zinc and tin.

Inflation has caused the face value of coins to fall below the hard currency value of the historically used metals. This had led to most modern coins being made of base metalscopper nickel (around 80:20, silver in color) is popular as are nickel-brass (copper (75), nickel (5) and zinc (20), gold in color), manganese-brass (copper, zinc, manganese, and nickel), bronze, or simple plated steel.

Biological role and toxicity

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Copper, although toxic in excessive amounts, is essential for life. It can be found in hemocyanin, cytochrome c oxidase and in superoxide dismutase. Copper is shown to have antimicrobial properties which make it useful for hospital doorknobs to keep diseases from being spread. Eating food in copper containers is known to increase the risk of copper toxicity. Wilson's disease is a genetic condition in which a protein important for excretion of excess copper is mutated such that copper builds up in body tissues, causing symptoms including vomiting, weakness, tremors, anxiety, and muscle stiffness.

Elemental gold and silver have no known toxic effects or biological use, although gold salts can be toxic to liver and kidney tissue.[7][8] Like copper, silver also has antimicrobial properties. The prolonged use of preparations containing gold or silver can also lead to the accumulation of these metals in body tissue; the results of which are irreversible but apparently harmless pigmentation conditions known as chrysiasis and argyria respectively.

Due to being short lived and radioactive, roentgenium has no biological use but it is likely extremely harmful due to its radioactivity.

References

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  1. ^ Fluck, E. (1988). "New Notations in the Periodic Table" (PDF). Pure Appl. Chem. 60 (3). IUPAC: 431–436. doi:10.1351/pac198860030431. Retrieved 24 March 2012.
  2. ^ a b "23.6: Group 11: Copper, Silver, and Gold". Chemistry LibreTexts. 2015-01-18. Retrieved 2022-03-25.
  3. ^ Greenwood, Norman N.; Earnshaw, Alan (1997). Chemistry of the Elements (2nd ed.). Butterworth-Heinemann. p. 1173. ISBN 978-0-08-037941-8.
  4. ^ "These Are the Native Elements That Occur in Nature". ThoughtCo. Retrieved 2022-03-25.
  5. ^ "List Native Elements Minerals & Naturally Occurring Metals In Pure Form". Mineral Processing & Metallurgy. 2016-09-27. Retrieved 2022-03-25.
  6. ^ Hofmann, S.; Ninov, V.; Heßberger, F.P.; Armbruster, P.; Folger, H.; Münzenberg, G.; Schött, H. J.; Popeko, A. G.; Yeremin, A. V.; Andreyev, A. N.; Saro, S.; Janik, R.; Leino, M. (1995). "The new element 111". Zeitschrift für Physik A. 350 (4): 281–282. Bibcode:1995ZPhyA.350..281H. doi:10.1007/BF01291182.
  7. ^ Wright, I. H.; Vesey, C. J. (1986). "Acute poisoning with gold cyanide". Anaesthesia. 41 (79): 936–939. doi:10.1111/j.1365-2044.1986.tb12920.x. PMID 3022615.
  8. ^ Wu, Ming-Ling; Tsai, Wei-Jen; Ger, Jiin; Deng, Jou-Fang; Tsay, Shyh-Haw; Yang, Mo-Hsiung. (2001). "Cholestatic Hepatitis Caused by Acute Gold Potassium Cyanide Poisoning". Clinical Toxicology. 39 (7): 739–743. doi:10.1081/CLT-100108516. PMID 11778673.