Difference between revisions of "Germanium" - New World Encyclopedia

Vapor pressure
32	gallium ← germanium → arsenic
	periodic table
General
Name, Symbol, Number	germanium, Ge, 32
Chemical series	metalloids
Group, Period, Block	14, 4, p
Appearance	grayish white ;
Atomic mass	72.64(1) g/mol
Electron configuration	[Ar] 3d10 4s2 4p2
Electrons per shell	2, 8, 18, 4
Physical properties
Phase	solid
Density (near r.t.)	5.323 g/cm³
Liquid density at m.p.	5.60 g/cm³
Melting point	1211.40 K; (938.25 °C, 1720.85 °F)
Boiling point	3106 K; (2833 °C, 5131 °F)
Heat of fusion	36.94 kJ/mol
Heat of vaporization	334 kJ/mol
Heat capacity	(25 °C) 23.222 J/(mol·K)
Atomic properties
Crystal structure	Face-centered cubic
Oxidation states	4; (amphoteric oxide)
Electronegativity	2.01 (Pauling scale)
Ionization energies; (more)	1st: 762 kJ/mol
	2nd: 1537.5 kJ/mol
	3rd: 3302.1 kJ/mol
Atomic radius	125 pm
Atomic radius (calc.)	125 pm
Covalent radius	122 pm
Miscellaneous
Magnetic ordering	no data
Thermal conductivity	(300 K) 60.2 W/(m·K)
Thermal expansion	(25 °C) 6.0 µm/(m·K)
Speed of sound (thin rod)	(20 °C) 5400 m/s
Mohs hardness	6.0
CAS registry number	7440-56-4
Notable isotopes

Revision as of 14:27, 25 October 2006

Template:Confuse.

Germanium (IPA: /dʒə(r)ˈmeɪniəm/) is a chemical element in the periodic table that has the symbol Ge and atomic number 32. This is a lustrous, hard, silver-white metalloid that is chemically similar to tin. Germanium forms a large number of organometallic compounds and is an important semiconductor material used in transistors.

Occurrence

This element is found in argyrodite (sulfide of germanium and silver); coal; germanite; zinc ores; and other minerals. See also Category:Germanium minerals

Germanium is obtained commercially from zinc ore processing smelter dust and from the combustion by-products of certain coals. A large reserve of this element is therefore in coal sources.

This metalloid can be extracted from other metals by fractional distillation of its volatile tetrachloride. This technique permits the production of ultra-high purity germanium.

History

In 1871 germanium (Latin Germania for Germany) was one of the elements that Dmitri Mendeleev predicted to exist as a missing analogue of the silicon group (Mendeleev called it "ekasilicon"). The existence of this element was proven by Clemens Winkler in 1886. This discovery was an important confirmation of Mendeleev's idea of element periodicity.

Property	Ekasilicon	Germanium
atomic mass	72	72.59
density (g/cm³)	5.5	5.35
melting point (°C)	high	947
color	gray	gray

The development of the germanium transistor opened the door to countless applications of solid state electronics. From 1950 through the early 1970s, this area provided an increasing market for germanium, but then high purity silicon began replacing germanium in transistors, diodes, and rectifiers. Silicon has superior electrical properties, but requires much higher purity samples—a purity which could not be commercially achieved in the early days. Meanwhile, demand for germanium in fiber optics communication networks, infrared night vision systems, and polymerization catalysts increased dramatically. These end uses represented 85% of worldwide germanium consumption for 2000.

Notable characteristics

Germanium is a hard, grayish-white element that has a metallic luster and the same crystal structure as diamond. In addition, it is important to note that germanium is a semiconductor, with electrical properties between those of a metal and an insulator. In its pure state, this metalloid is crystalline, brittle and retains its lustre in air at room temperature. Zone refining techniques have led to the production of crystalline germanium for semiconductors that have an impurity of only one part in 10¹⁰.

Applications

Unlike most semiconductors, germanium has a small band gap, allowing it to efficiently respond to infrared light. It is therefore used in infrared spectroscopes and other optical equipment which require extremely sensitive infrared detectors. Its oxide's index of refraction and dispersion properties make germanium useful in wide-angle camera lenses and in microscope objective lenses.

Germanium transistors are still used in some stompboxes by musicians who wish to reproduce the distinctive tonal character of the "fuzz"-tone from the early rock and roll era. Vintage stompboxes known to contain germanium transistors have shown marked increases in collector value for this reason alone.

The alloy Silicon germanide (commonly referred to as "silicon-germanium", or SiGe) is rapidly becoming an important semiconductor material, for use in high speed integrated circuits. Circuits utilising the properties of Si-SiGe junctions can be much faster than those using silicon alone.

Germanium bowl

Other uses:

Alloying agent (see below)
Phosphor in fluorescent lamps
catalyst
High purity germanium single crystal detectors can precisely identify radiation sources (e.g. for airport security)

Certain compounds of germanium have low toxicity to mammals, but have toxic effects against certain bacteria. This property makes these compounds useful as chemotherapeutic agents.

Germanium is useful for single crystal neutron or synchrotron X-ray monochromator for beamlines. The reflectivity has advantages over silicon in neutron and High energy X-ray applications.

While germanium has been claimed as an attractive nutritional supply, able to cure even cancer and AIDS, FDA research has concluded that the offered supplements "present potential human health hazard".^[1]

In recent years germanium has seen increasing use in precious metal alloys. In sterling silver alloys, for instance, it has been found to reduce firescale, increase tarnish resistance, and increase the alloy's response to precipitation hardening (see Argentium sterling silver).

Compounds

Some inorganic germanium compounds include Germane or Germanium tetrahydride (GeH₄), Germanium tetrachloride (GeCl₄), and Germanium dioxide (germania) (GeO₂). Some organic compounds of germanium include tetramethylgermane or tetramethyl germanium, (Ge(CH₃)₄), and tetraethylgermane or tetraethyl germanium, (Ge(C₂H₅)₄). Recently a new organogermanium compound isobutylgermane ((CH₃)₂CHCH₂GeH₃), was reported as the less hazardous liquid substitute for toxic germane gas in semiconductor applications. (Reference: Presentation at ACCGE conference, held at Big Sky Resort in Montana, USA, July 2005).

Footnotes

↑ Tao, S.H. and Bolger, P.M. (June 1997). Hazard Assessment of Germanium Supplements. Regulatory Toxicology and Pharmacology 25 (3): 211-219.

References
ISBN links support NWE through referral fees

Los Alamos National Laboratory – Germanium

External links

WebElements.com – Germanium

Credits

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Germanium ^history

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History of "Germanium"

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[1] Tao, S.H. and Bolger, P.M. (June 1997). Hazard Assessment of Germanium Supplements. Regulatory Toxicology and Pharmacology 25 (3): 211-219.

[1]

@@ Line 46: / Line 46: @@
 '''Germanium''' ([[International Phonetic Alphabet|IPA]]: {{IPA|/dʒə(r)ˈmeɪniəm/}}) is a [[chemical element]] in the [[periodic table]] that has the symbol '''Ge''' and [[atomic number]] 32. This is a lustrous, hard, silver-white [[metalloid]] that is chemically similar to [[tin]]. Germanium forms a large number of [[organometallic]] compounds and is an important [[semiconductor]] material used in [[transistor]]s.
-== Notable characteristics ==
+== Occurrence ==
-Germanium is a hard, grayish-white element that has a metallic luster and the same crystal structure as [[diamond]]. In addition, it is important to note that germanium is a semiconductor, with electrical properties between those of a [[metal]] and an [[insulator]]. In its pure state, this metalloid is [[crystal]]line, brittle and retains its [[Lustre (mineralogy)|lustre]] in air at room temperature. [[Zone refining]] techniques have led to the production of crystalline germanium for [[semiconductor]]s that have an impurity of only one part in 10<sup>10</sup>.
+This element is found in [[argyrodite]] ([[sulfide]] of germanium and [[silver]]); [[coal]]; [[germanite]]; [[zinc]] ores; and other [[mineral]]s.
+See also ''[[:Category:Germanium minerals]]''
+Germanium is obtained commercially from zinc ore processing smelter dust and from the [[combustion]] by-products of certain coals. A large reserve of this element is therefore in coal sources.
+This metalloid can be extracted from other metals by fractional [[distillation]] of its volatile tetrachloride. This technique permits the production of ultra-high purity germanium.
 == History ==
@@ Line 76: / Line 81: @@
 </table>
 The development of the germanium transistor opened the door to countless applications of [[solid state (electronics)|solid state]] electronics. From [[1950]] through the early [[1970s]], this area provided an increasing market for germanium, but then high purity silicon began replacing germanium in transistors, [[diode]]s, and rectifiers. Silicon has superior electrical properties, but requires much higher purity samples&mdash;a purity which could not be commercially achieved in the early days. Meanwhile, demand for germanium in [[fiber optics]] communication networks, infrared [[night vision]] systems, and polymerization catalysts increased dramatically.  These end uses represented 85% of worldwide germanium consumption for [[2000]].
+== Notable characteristics ==
+Germanium is a hard, grayish-white element that has a metallic luster and the same crystal structure as [[diamond]]. In addition, it is important to note that germanium is a semiconductor, with electrical properties between those of a [[metal]] and an [[insulator]]. In its pure state, this metalloid is [[crystal]]line, brittle and retains its [[Lustre (mineralogy)|lustre]] in air at room temperature. [[Zone refining]] techniques have led to the production of crystalline germanium for [[semiconductor]]s that have an impurity of only one part in 10<sup>10</sup>.
 == Applications ==
@@ Line 109: / Line 118: @@
 In recent years germanium has seen increasing use in precious metal alloys.  In [[sterling silver]] alloys, for instance, it has been found to reduce [[firescale]], increase tarnish resistance, and increase the alloy's response to precipitation hardening (see [[Argentium sterling silver]]).
-== Occurrence ==
+==Compounds==
-This element is found in [[argyrodite]] ([[sulfide]] of germanium and [[silver]]); [[coal]]; [[germanite]]; [[zinc]] ores; and other [[mineral]]s.
-See also ''[[:Category:Germanium minerals]]''
-Germanium is obtained commercially from zinc ore processing smelter dust and from the [[combustion]] by-products of certain coals. A large reserve of this element is therefore in coal sources.
-This metalloid can be extracted from other metals by fractional [[distillation]] of its volatile tetrachloride. This technique permits the production of ultra-high purity germanium.
-== Value ==
-In [[1997]] the cost of germanium was about [[United States dollar|US$]]3 per [[gram]]. The yearend price for zone-refined germanium has (generally) decreased since then<ref>{{cite journal
- | author =
- | year = 2006
- | month = January
- | title = Germanium
- | journal = U.S. Geological Survey Mineral Commodity Summaries,
- | volume =
- | issue =
- | pages = 72
- | id =[http://minerals.usgs.gov/minerals/pubs/commodity/germanium/germamcs06.pdf]}}</ref>:
-::2000.....$1,150 per [[kilogram]] (or $1.15 per gram)
-::2001.....$890 per kilogram (or $0.89 per gram)
-::2002.....$620 per kilogram (or $0.62 per gram)
-::2003.....$380 per kilogram (or $0.38 per gram)
-::2004.....$600 per kilogram (or $0.60 per gram)
-::2005.....$610 per kilogram (or $0.61 per gram)
-==Compounds==
 Some [[inorganic]] germanium compounds include [[Germane]] or [[Germanium tetrahydride]] (GeH<sub>4</sub>), [[Germanium tetrachloride]] (GeCl<sub>4</sub>),
 and [[Germanium dioxide]] (germania) (GeO<sub>2</sub>). Some [[organic]] compounds of germanium include tetramethylgermane or tetramethyl germanium, (Ge(CH<sub>3</sub>)<sub>4</sub>), and tetraethylgermane or tetraethyl germanium, (Ge(C<sub>2</sub>H<sub>5</sub>)<sub>4</sub>). Recently a new organogermanium compound [[isobutylgermane]] ((CH<sub>3</sub>)<sub>2</sub>CHCH<sub>2</sub>GeH<sub>3</sub>), was reported as the less hazardous liquid substitute for toxic [[germane]] gas in [[semiconductor]] applications. (Reference: Presentation at ACCGE conference, held at Big Sky Resort in Montana, USA, July 2005).
-See also ''[[:Category:Germanium compounds]]''
+== See also==
+* [[Chemical element]]
+* [[Metal]]
+* [[Periodic table]]
+==Footnotes==
+<references/>
 ==References==
 *[http://periodic.lanl.gov/elements/32.html Los Alamos National Laboratory &ndash; Germanium]
-<references/>
 == External links ==
-{{Commons|Germanium}}
-{{wiktionary|germanium}}
 *[http://www.webelements.com/webelements/elements/text/Ge/index.html WebElements.com &ndash; Germanium]
+[[Category:Physical sciences]]
+[[Category:Chemistry]]
+[[Category:Earth sciences]]
 [[Category:Chemical elements]]
-[[Category:Metalloids]]
-[[Category:Semiconductor materials]]
-[[Category:Germanium]]
-<!-- interwiki —>
+{{credit|83577545}}
-[[af:Germanium]]
-[[ar:جيرمانيوم]]
-[[bs:Germanijum]]
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-[[cs:Germanium]]
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-[[uk:Германій]]
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-[[zh:锗]]