Rhodium

Rh redirects here. For other uses, see rh (disambiguation) Template:Elementbox header Template:Elementbox series Template:Elementbox groupperiodblock Template:Elementbox appearance img Template:Elementbox atomicmass gpm Template:Elementbox econfig Template:Elementbox epershell Template:Elementbox section physicalprop Template:Elementbox phase Template:Elementbox density gpcm3nrt Template:Elementbox densityliq gpcm3mp Template:Elementbox meltingpoint Template:Elementbox boilingpoint Template:Elementbox heatfusion kjpmol Template:Elementbox heatvaporiz kjpmol Template:Elementbox heatcapacity jpmolkat25 Template:Elementbox vaporpressure katpa Template:Elementbox section atomicprop Template:Elementbox crystalstruct Template:Elementbox oxistates Template:Elementbox electroneg pauling Template:Elementbox ionizationenergies3 Template:Elementbox atomicradius pm Template:Elementbox atomicradiuscalc pm Template:Elementbox covalentradius pm Template:Elementbox section miscellaneous Template:Elementbox magnetic Template:Elementbox eresist ohmmat0 Template:Elementbox thermalcond wpmkat300k Template:Elementbox thermalexpansion umpmkat25 Template:Elementbox speedofsound rodmpsat20 Template:Elementbox youngsmodulus gpa Template:Elementbox shearmodulus gpa Template:Elementbox bulkmodulus gpa Template:Elementbox poissonratio Template:Elementbox mohshardness Template:Elementbox vickershardness mpa Template:Elementbox brinellhardness mpa Template:Elementbox cas number Template:Elementbox isotopes begin |- ! rowspan="2" style="text-align:right; vertical-align:middle;" | ⁹⁹Rh | rowspan="2" style="text-align:center; vertical-align:middle;" | syn | rowspan="2" style="text-align:right; vertical-align:middle;" | 16.1 d | ε | style="text-align:right;" | ⁹⁹Ru |- | γ | style="text-align:right;" | - |- ! rowspan="3" style="text-align:right; vertical-align:middle;" | ^101mRh | rowspan="3" style="vertical-align:middle; text-align:center" | syn | rowspan="3" style="vertical-align:middle; text-align:right;" | 4.34 d | ε | style="text-align:right;" | ¹⁰¹Ru |- | IT | style="text-align:right;" | ¹⁰¹Rh |- | γ | style="text-align:right;" | - |- ! rowspan="2" style="text-align:right; vertical-align:middle;" | ¹⁰¹Rh | rowspan="2" style="text-align:center; vertical-align:middle;" | syn | rowspan="2" style="text-align:right; vertical-align:middle;" | 3.3 y | ε | style="text-align:right;" | ¹⁰¹Ru |- | γ | style="text-align:right;" | - |- ! rowspan="2" style="text-align:right; vertical-align:middle;" | ^102mRh | rowspan="2" style="text-align:center; vertical-align:middle;" | syn | rowspan="2" style="text-align:right; vertical-align:middle;" | 2.9 y | ε | style="text-align:right;" | ¹⁰²Ru |- | γ | style="text-align:right;" | - |- ! rowspan="4" style="text-align:right; vertical-align:middle;" | ¹⁰²Rh | rowspan="4" style="vertical-align:middle; text-align:center" | syn | rowspan="4" style="vertical-align:middle; text-align:right;" | 207 d | ε | style="text-align:right;" | ¹⁰²Ru |- | β⁺ | style="text-align:right;" | ¹⁰²Ru |- | β^- | style="text-align:right;" | ¹⁰²Pd |- | γ | style="text-align:right;" | - Template:Elementbox isotopes stable |- ! rowspan="2" style="text-align:right; vertical-align:middle;" | ¹⁰⁵Rh | rowspan="2" style="text-align:center; vertical-align:middle;" | syn | rowspan="2" style="text-align:right; vertical-align:middle;" | 35.36 h | β^- | style="text-align:right;" | ¹⁰⁵Pd |- | γ | style="text-align:right;" | - Template:Elementbox isotopes end Template:Elementbox footer

Rhodium (IPA: /ˈrəʊdiəm/) is a chemical element in the periodic table that has the symbol Rh and atomic number 45. A rare silvery-white hard transition metal, rhodium is a member of the platinum group, is found in platinum ores and is used in alloys with platinum and as a catalyst. It is the most expensive precious metal.[1]

Rhodium is a hard silvery white and durable metal that has a high reflectance. If slowly cooled from a red hot state it changes in air to the sesquioxide, which at higher temperatures converts back to the metal. Rhodium has both a higher melting point and lower density than platinum. It is not attacked by acids: it is completely insoluble in nitric acid and slightly dissolves in aqua regia. A complete dissolution of Rhodium in powder form is only obtained in sulfuric acid.

The primary use of this element is as an alloying agent for hardening platinum and palladium. These alloys are used in furnace windings, bushings for glass fiber production, thermocouple elements, electrodes for aircraft spark plugs, and laboratory crucibles. Other uses include:

• It is used as an electrical contact material due to its low electrical resistance, low and stable contact resistance, and its high corrosion resistance.
• Plated rhodium, made by electroplating or evaporation, is extremely hard and is used for optical instruments.
• This metal finds use in jewelry and for decorations. It is electroplated on white gold and platinum to give it a reflective white surface. This is known as rhodium flashing in the jewelry business.
• It is also a highly useful catalyst in a number of industrial processes (notably it is used in the catalytic system of automobile catalytic converters and for catalytic carbonylation of methanol to produce acetic acid by the Monsanto process). It is used to catalyse addition of hydrosilanes to a double bond, a process important in manufacture of certain silicone rubbers.
• The complex of a rhodium ion with BINAP gives a widely used chiral catalyst for chiral synthesis, as in the synthesis of menthol.

Rhodium (Greek rhodon meaning "Rose") was discovered in 1803 by William Hyde Wollaston soon after his discovery of palladium. Wollaston made this discovery in England using crude platinum ore that he presumably obtained from South America.

His procedure involved dissolving the ore in aqua regia, neutralizing the acid with sodium hydroxide (NaOH). He then precipitated the platinum metal by adding ammonium chloride, NH₄Cl, as ammonium chloroplatinate. The element palladium was removed as palladium cyanide after treating the solution with mercuric cyanide. The material that remained was a red rhodium(III) chloride: rhodium metal was isolated via reduction with hydrogen gas.

The industrial extraction of rhodium is complex as the metal occurs in ores mixed with other metals such as palladium, silver, platinum, and gold. It is found in platinum ores and obtained free as a white inert metal which it is very difficult to fuse. Principal sources of this element are located in South Africa, in river sands of the Ural Mountains, in North and South America and also in the copper-nickel sulfide mining area of the Sudbury, Ontario region. Although the quantity at Sudbury is very small, the large amount of nickel ore processed makes rhodium recovery cost effective. The main exporter of rhodium is South Africa (>80%) followed by Russia. However, the annual world production of this element is only about 20 tons and there are very few rhodium minerals. However, it is generally difficult to determine if a rock sample does or does not contain platinum group elements. As of 2006, rhodium cost approximately six times as much as gold, by weight.

It is also possible to extract rhodium from spent nuclear fuel, which contains an average of 400 g of rhodium per metric ton. Rhodium produced in such a way contains radioactive isotopes with half-lives of up to 2.9 years and is therefore stored at least 20 years in a secured area to allow it to become stable. Every 2.9 years of isolation reduces the radioactivity by 50%. Fissioned rhodium has a specific activity of 8.1 curies of radioactivity per gram after 5 years isolation. Under health physics safety rules, any isotope that emits more than 1 curie of activity is a hazard; however after 8 years the activity falls to 4.1 Ci, after 11 years it is 2.2, after 14 years 1.1 Ci, after 17 years .55 Ci, and after 20 years only .27 Ci. After 30 years the activity falls to 2.702E-4 Ci, which is under the threshold for low level risk by even the most stringent health physics rules. The radioactivity of rhodium falls off so quickly because the percentage of Rh-102 in the recovered rhodium is only a trace amount and the remainder of the material absorbs the energy released. Rhodium averaged $26.43 per gram or $820 per troy ounce over the last 30 years and $6200 per troy ounce in May 2006, adding significantly to the resource value of reprocessed fission waste.

Naturally occurring rhodium is composed of only one isotope, ¹⁰³Rh. The most stable radioisotopes are ¹⁰¹Rh with a half-life of 3.3 years, ^102mRh with a half-life of 207 days, ¹⁰²Rh with a half-life of 2.9 years, and ⁹⁹Rh with a half-life of 16.1 days. Twenty other radioisotopes have been characterized with atomic weights ranging from 92.926 u (⁹³Rh) to 116.925 u (¹¹⁷Rh). Most of these have half-lifes that are less than an hour except ¹⁰⁰Rh (half-life: 20.8 hours) and ¹⁰⁵Rh (half-life: 35.36 hours). There are also numerous meta states with the most stable being ^102mRh (0.141 MeV) with a half-life of about 207 days and ^101mRh (0.157 MeV) with a half-life of 4.34 days.

The primary decay mode before the only stable isotope, ¹⁰³Rh, is electron capture and the primary mode after is beta emission. The primary decay product before ¹⁰³Rh is ruthenium and the primary product after is palladium.

Rhodium metal is, as a noble metal, inert.

However, when rhodium is chemically bound, it is reactive. Rhodium compounds are not often encountered by most people and should be considered to be highly toxic and carcinogenic. Lethal intake (LD50) for rats is 12.6 mg/kg of rhodium chloride (RhCl₃). Rhodium compounds can stain human skin very strongly. This element plays no biological role in humans.

Rhodium has been used for honours, or to symbolize wealth, when more commonly used metals such as silver, gold, or platinum are deemed insufficient. In 1979 the Guinness Book of World Records gave Paul McCartney a rhodium-plated disc for being history's all-time best-selling songwriter and recording artist. Guinness has also noted items such as the world's "Most Expensive Pen" or "Most Expensive Board Game" as containing rhodium.

• Los Alamos National Laboratory – Rhodium

• WebElements.com – Rhodium
• Kitco Rhodium prices

Wikimedia Commons has media related to Rhodium.

Look up rhodium in Wiktionary, the free dictionary.