Word Netytterbium n : a soft silvery metallic element; a rare earth of the lanthanide series; it occurs in gadolinite and monazite and xenotime [syn: Yb, atomic number 70]
- A metallic chemical element (symbol Yb) with an atomic number of 70.
- Afrikaans: itterbium
- Albanian: iterb
- Arabic: (yitríbyum)
- Armenian: իտերբիում (iterbium)
- Basque: iterbioa
- Belarusian: iтэрбiй (itérbij)
- Breton: iterbiom
- Bulgarian: итербий (itérbij)
- Catalan: iterbi
- Chinese: 鐿 (yì)
- Cornish: yterbyum
- Croatian: iterbij
- Czech: ytterbium
- Danish: ytterbium
- Dutch: ytterbium
- Esperanto: iterbio
- Estonian: üterbium
- Faroese: ytterbium
- Finnish: ytterbium
- French: ytterbium
- West Frisian: ytterbium
- Friulian: iterbi
- Galician: iterbio
- Georgian: იტერბიუმი (iterbiumi)
- German: Ytterbium
- Greek, Modern: υττέρβιο (yttérvio)
- Hebrew: איטרביום (itérbiyum)
- Hungarian: itterbium
- Icelandic: ytterbín
- Irish: itéirbiam
- Italian: itterbio
- Japanese: イッテルビウム (itterubiumu)
- Kashmiri: éterb
- Kazakh: иттербий (itterbii)
- Korean: 이테르븀 (itereubyum)
- Latin: ytterbium
- Latvian: iterbijs
- Lithuanian: iterbis
- Luxembourgish: ytterbium
- Macedonian: итербиум (itérbium)
- Malay: yterbium
- Maltese: itterbjum
- Manx: ytterbium
- Mongolian: иттерби (itterbi)
- Norwegian: ytterbium
- Polish: iterb
- Portuguese: itérbio
- Romanian: yterbiu
- Russian: иттербий (ittérbij)
- Scottish Gaelic: itèirbiam
- Serbian: итербиjум (iterbijum)
- Slovak: ytterbium
- Slovenian: iterbij
- Spanish: iterbio
- Swedish: ytterbium
- Tajik: itterbi'
- Tamil: திகழ்வெள்ளீயம் (thigazhveLLeeyam)
- Thai: (itthoebiam)
- Turkish: iterbiyum
- Ukrainian: iтербiй (itérbij)
- Uzbek: иттербий (itterbiy)
- Vietnamese: ytecbi
- Welsh: yterbiwm
External linksFor more information refer to: http://elements.vanderkrogt.net/elem/yb.html (A lot of the translations were taken from that site with permission from the author)
- Hyphenation: yt·ter·bium
Ytterbium () is a chemical element with the symbol Yb and atomic number 70. A soft silvery metallic element, ytterbium is a rare earth of the lanthanide series and is found in the minerals gadolinite, monazite, and xenotime. The element is sometimes associated with yttrium or other related elements and is used in certain steels. Natural ytterbium is a mix of seven stable isotopes.
Notable characteristicsYtterbium is a soft, malleable and rather ductile element that exhibits a bright silvery luster. A rare earth element, it is easily attacked and dissolved by mineral acids, slowly reacts with water, and oxidizes in air.
Ytterbium has three allotropes which are called alpha, beta and gamma and whose transformation points are at −13 °C and 795 °C. The beta form exists at room temperature and has a face-centered crystal structure while the high-temperature gamma form has a body-centered crystal structure.
Normally, the beta form has a metallic-like electrical conductivity, but becomes a semiconductor when exposed to around 16,000 atm (1.6 GPa). Its electrical resistivity is tenfold larger at about 39,000 atm (3.9 GPa) but then drops dramatically, to around 10% of its room temperature resistivity value, at 40,000 atm (4 GPa).
Ytterbium is one of the lanthanides that is able to become divalent. Like the other potentially divalent lanthanides, samarium and europium, it is capable of being extracted into mercury by the use of sodium amalgam, which made it one of the easier lanthanides to purify using classical techniques. However, this divalency was not discovered until the 20th century.
ApplicationsUsually, very small amount of Yb is used; either small sample of radioactive isotope as source of X-rays, or small concentration dopant.
Source of X-raysThe 169Yb isotope has been used as a radiation source substitute for a portable X-ray machine when electricity was not available. Like X-rays, gamma rays pass through soft tissues of the body, but are blocked by bones and other dense materials. Thus, small 169Yb samples (which emit gamma rays) act like tiny X-ray machines useful for radiography of small objects.
Doping of stainless steelYtterbium could also be used to help improve the grain refinement, strength, and other mechanical properties of stainless steel. Some ytterbium alloys have been used in dentistry.
Yb as dopant of active mediaYb is used as dopant in optics materials, usually in the form of ions in active laser media. Several powerful double-clad fiber lasers and disk lasers use Yb3+ ions as dopant at concentration of several atomic percent. Glasses (optical fibers), crystals and ceramics with Yb3+ are used.
Ytterbium is often used as a doping material (as Yb3+) for high power and wavelength-tunable solid state lasers. Yb lasers commonly radiate in the 1.06–1.12µm band being optically pumped at wavelength 900nm–1µm, dependently on the host and application. Small quantum defect makes Yb prospective dopant for efficient lasers and power scaling.
The kinetic of excitations in Yb-doped materials is simple and can be described within concept of effective cross-sections; for the most of Yb-doped laser materials (as for many other optically-pumped gain media), the McCumber relation holds , although the application to the Yb-doped composite materials was under discussion .
Usually, low concentrations of Yb are used. At high concentration of excitations, the Yb-doped materials show photodarkening (glass fibers) or ever switch to the broadband emission (crystals and ceramics) instead of the efficient laser action. This effect may be related with not only overheating, but also conditions of the charge compensation at high concentration of Yb ions .
Solar cellsYtterbium has a single absorption band at 985 nanometers, which is used to convert infrared energy into electricity in solar cells.
HistoryYtterbium was discovered by the Swiss chemist Jean Charles Galissard de Marignac in 1878. Marignac found a new component in the earth then known as erbia and named it ytterbia (after Ytterby, the Swedish town where he found the new erbia component). He suspected that ytterbia was a compound of a new element he called ytterbium.
In 1907, the French chemist Georges Urbain separated Marignac's ytterbia into two components, neoytterbia and lutecia. Neoytterbia would later become known as the element ytterbium and lutecia would later be known as the element lutetium. Auer von Welsbach independently isolated these elements from ytterbia at about the same time but called them aldebaranium and cassiopeium.
The chemical and physical properties of ytterbium could not be determined until 1953 when the first nearly pure ytterbium was produced.
OccurrenceYtterbium is found with other rare earth elements in several rare minerals. It is most often recovered commercially from monazite sand (0.03% ytterbium). The element is also found in euxenite and xenotime. Ytterbium is normally difficult to separate from other rare earths but ion-exchange and solvent extraction techniques developed in the late 20th century have simplified separation. Known compounds of ytterbium are rare—they haven't been well characterized yet.
IsotopesNaturally occurring ytterbium is composed of 7 stable isotopes, Yb-168, Yb-170, Yb-171, Yb-172, Yb-173, Yb-174, and Yb-176, with Yb-174 being the most abundant (31.83% natural abundance). 27 radioisotopes have been characterized, with the most stable being Yb-169 with a half-life of 32.026 days, Yb-175 with a half-life of 4.185 days, and Yb-166 with a half life of 56.7 hours. All of the remaining radioactive isotopes have half-lifes that are less than 2 hours, and the majority of these have half lifes that are less than 20 minutes. This element also has 12 meta states, with the most stable being Yb-169m (t½ 46 seconds).
The isotopes of ytterbium range in atomic weight from 147.9674 u (Yb-148) to 180.9562 u (Yb-181). The primary decay mode before the most abundant stable isotope, Yb-174 is electron capture, and the primary mode after is beta emission. The primary decay products before Yb-174 are element 69 (thulium) isotopes, and the primary products after are element 71 (lutetium) isotopes. Of interest to modern quantum optics, the different ytterbium isotopes follow either Bose-Einstein statistics or Fermi-Dirac statistics, leading to interesting behavior in optical lattices.
PrecautionsAlthough ytterbium is fairly stable, it nevertheless should be stored in closed containers to protect it from air and moisture. All compounds of ytterbium should be treated as highly toxic although initial studies appear to indicate that the danger is limited. Ytterbium compounds are, however, known to cause skin and eye irritation and may be teratogenic. Metallic ytterbium dust poses a fire and explosion hazard.
- WebElements.com – Ytterbium (also used as a reference)
ytterbium in Arabic: إتيربيوم
ytterbium in Bengali: ইটারবিয়াম
ytterbium in Belarusian: Ітэрбій
ytterbium in Bosnian: Iterbijum
ytterbium in Catalan: Iterbi
ytterbium in Czech: Ytterbium
ytterbium in Corsican: Itterbiu
ytterbium in Danish: Ytterbium
ytterbium in German: Ytterbium
ytterbium in Estonian: Üterbium
ytterbium in Modern Greek (1453-): Υττέρβιο
ytterbium in Spanish: Iterbio
ytterbium in Esperanto: Iterbio
ytterbium in Basque: Iterbio
ytterbium in Persian: ایتربیوم
ytterbium in French: Ytterbium
ytterbium in Friulian: Iterbi
ytterbium in Manx: Ytterbium
ytterbium in Galician: Iterbio
ytterbium in Korean: 이터븀
ytterbium in Armenian: Իտերբիում
ytterbium in Croatian: Iterbij
ytterbium in Ido: Yiterbio
ytterbium in Indonesian: Iterbium
ytterbium in Icelandic: Ytterbín
ytterbium in Italian: Itterbio
ytterbium in Hebrew: איטרביום
ytterbium in Javanese: Iterbium
ytterbium in Latin: Ytterbium
ytterbium in Latvian: Iterbijs
ytterbium in Luxembourgish: Ytterbium
ytterbium in Lithuanian: Iterbis
ytterbium in Lojban: jinmrtiterbi
ytterbium in Hungarian: Itterbium
ytterbium in Malayalam: യിറ്റെര്ബിയം
ytterbium in Dutch: Ytterbium
ytterbium in Japanese: イッテルビウム
ytterbium in Norwegian: Ytterbium
ytterbium in Norwegian Nynorsk: Ytterbium
ytterbium in Polish: Iterb
ytterbium in Portuguese: Itérbio
ytterbium in Romanian: Yterbiu
ytterbium in Russian: Иттербий
ytterbium in Sicilian: Itterbiu
ytterbium in Simple English: Ytterbium
ytterbium in Slovak: Yterbium
ytterbium in Slovenian: Iterbij
ytterbium in Serbian: Итербијум
ytterbium in Serbo-Croatian: Iterbijum
ytterbium in Finnish: Ytterbium
ytterbium in Swedish: Ytterbium
ytterbium in Thai: อิตเทอร์เบียม
ytterbium in Turkish: İterbiyum
ytterbium in Ukrainian: Ітербій
ytterbium in Chinese: 镱