Alkali metals

etymology

properties

The five stable alkali metals

Alkali metals are shiny metallic, silvery-white, soft light metals . Cesium has a golden hue with the slightest contamination. They can be cut with a knife . Alkali metals have a low density . They react with many substances , for example with water , air or halogens, sometimes extremely violently with strong heat generation. In particular, the heavier alkali metals can self-ignite in air . Therefore, they are stored under protective liquids such as paraffin or petroleum (lithium, sodium and potassium) or in the absence of air in ampoules (rubidium and cesium).

As elements of the first group of the periodic table they have only a weakly bound s - electron , they give off light. Their first ionization energies and their electronegativities are correspondingly small. In compounds they all occur almost exclusively as monovalent cations , although compounds are known in which these metals are present in anionic form (e.g. natrides , complexed with so-called cryptands ).

• 

  lithium

• 

  sodium

• 

  potassium

• 

  Rubidium

Alkali metals and their salts have a specific flame color :

• Lithium and its salts color the flame red (671 nm).
• Sodium and its salts turn the flame yellow (589 nm).
• Potassium and its salts color the flame violet (768 and 404 nm).
• Rubidium and its salts color the flame red (780 and 421 nm).
• Cesium and its salts color the flame blue-violet (458 nm).

Because of this flame color, alkali metal compounds are used for fireworks .

In atomic physics alkali metals are used, since it is particularly easy with because of their particularly simple electronic structure cool lasers can.

Physical Properties

All alkali metals crystallize in the body-centered cubic structure . Only lithium and sodium crystallize in the hexagonal closest packing when low temperatures prevail.

The radius of the element atoms as well as the cations increases with increasing mass number. Many other properties of the alkali metals show a trend from top to bottom within the group:

• Decrease in hardness , ionization energy , electronegativity , melting and boiling points ,
• Increase in reactivity , basicity and density .

element	lithium	sodium	potassium	Rubidium	Cesium	Francium
Melting point (1013 hPa)	453.69 K (180.54 ° C)	370.87 K (97.72 ° C)	336.53 K (63.38 ° C)	312.46 K (39.31 ° C)	301.59 K (28.44 ° C)	298 K (25 ° C)
Boiling point (1013 hPa)	1603 K (1330 ° C)	1163 K (890 ° C)	1047 K (774 ° C)	961.2 K (688 ° C)	963.2 K (690 ° C)	950 K (677 ° C)
Critical point	3220 K (2947 ° C) 67 MPa	2573 K (2300 ° C) 35 MPa	2223 K (1950 ° C) 16 MPa	2093 K (1820 ° C) 16 MPa	1938 K (1665 ° C) 9.4 MPa
Density (20 ° C, 1013 hPa)	0.534 g / cm 3	0.968 g / cm 3	0.856 g / cm 3	1.532 g / cm 3	1.90 g / cm 3	2.48 g / cm 3
Mohs hardness	0.6	0.5	0.4	0.3	0.2
Electric conductivity	10.6 x 10 6 S / m	21 · 10 6 S / m	14.3 x 10 6 S / m	7.52 x 10 6 S / m	4.76 x 10 6 S / m
Atomic mass	6.94 u	22,990 u	39,098 u	85,468 u	132,905 u	223,020 u
Electronegativity	0.98	0.93	0.82	0.82	0.79	0.70
structure
Crystal system	body-centered cubic	body-centered cubic	body-centered cubic	body-centered cubic	body-centered cubic	body-centered cubic

Reactions and connections

The alkali metals react with hydrogen to form salt-like alkali metal hydrides :

${\ displaystyle {\ ce {2 Me + H_2 -> 2 MeH}}}$

The thermal stability of hydrides decreases from lithium hydride to cesium hydride . Alkali hydrides are used as reducing or drying agents.

${\ displaystyle {\ ce {4 Li + O_2 -> 2 Li_2O}}}$

${\ displaystyle {\ ce {4 Na + O_2 -> 2 Na_2O}}}$

${\ displaystyle {\ ce {2 Na + O_2 -> Na_2O_2}}}$

${\ displaystyle {\ ce {2 K + O_2 -> K_2O_2}}}$

${\ displaystyle {\ ce {K + O_2 -> KO_2}}}$

${\ displaystyle {\ ce {Rb + O_2 -> RbO_2}}}$

${\ displaystyle {\ ce {Cs + O_2 -> CsO_2}}}$

Play media file

Reaction of potassium with water in the air (video)

The reaction with water to form alkali metal hydroxides takes place with the release of hydrogen :

${\ displaystyle {\ ce {2 M + 2 H_2O -> 2 MOH + H_2}}}$

The reactivity of the alkali metals increases with increasing atomic number , because with increasing number of electron shells the outer electron is more and more shielded from the attraction of the positively charged atomic nucleus and can therefore be split off more easily. The increase in reactivity can be clearly seen in the reaction of the various metals with water : Lithium and sodium react with water violently, producing hydrogen, but without the hydrogen igniting. Potassium and rubidium react with spontaneous ignition of the hydrogen, cesium reacts explosively. The alkali metals react particularly well with non-metals , which only lack a few electrons in order to achieve a noble gas configuration.

The alkali metals react with halogens to form the salt-like alkali metal halides :

${\ displaystyle {\ ce {2 Me + X_2 -> 2 MeX}}}$

The reactivity increases from lithium to cesium and decreases from fluorine to iodine . Sodium hardly reacts with iodine and reacts very slowly with bromine , while the reaction of potassium with bromine and iodine is explosive.

Alkali metals can remove the halogen from halogenated hydrocarbons with phenomena of explosion, forming carbon and the corresponding alkali metal halide:

${\ displaystyle {\ ce {CCl_4 + 4 Na -> 4 NaCl + C}}}$

hydrogen

Hydrogen , the first element of main group 1, is a non-metal under normal conditions. It is therefore not counted among the alkali metals, but shares some properties with them. Like the alkali metals, hydrogen always occurs in monovalent form and, under extremely high pressure, is converted into a metallic high-pressure modification, metallic hydrogen . Conversely, some alkali metals also have properties such as hydrogen under certain conditions, e.g. B. lithium as a gas consists of 1% diatomic molecules.

literature

• AG Sharpe et al .: Inorganic Chemistry, second edition - ISBN 0-13-039913-2 - Chapter 10 Group 1: the alkali metals .
• Handbook of experimental chemistry, upper secondary level , volume 2, alkali and alkaline earth metals, halogens, Aulis Verlag Deubner & Co. KG, Cologne.

Web links

Commons : Alkali Metals  - Collection of pictures, videos and audio files

Wiktionary: Alkali metals  - explanations of meanings, word origins, synonyms, translations

• Pink Panther Reaction Reaction of sodium with water on video
• The alkali metals Description of the alkali metals with many illustrations
• High speed camera reveals why sodium explodes! Video on the cause of the violent reaction of alkali metals with water in the absence of air on the YouTube channel (Thunderf00t) of the main author of the Nature chemistry article (English)

Individual evidence

1. ↑ Duden Learn Attack GmbH: flame coloration
2. ↑ ^{a b c d} P. Häussinger, R. Glatthaar, W. Rhode, H. Kick, C. Benkmann, J. Weber, H.-J. Wunschel, V. Stenke, E. Leicht, H. Stenger: Noble Gases. In: Ullmann's Encyclopedia of Industrial Chemistry . Wiley-VCH, Weinheim 2006 ( doi : 10.1002 / 14356007.a17_485 ).
3. ↑ PE Mason, F. Uhlig, V. Vaněk, T. Buttersack, S. Bauerecker, P. Jungwirth: Coulomb explosion during the early stages of the reaction of alkali metals with water. In: Nature chemistry. Volume 7, number 3, March 2015, pp. 250-254, doi : 10.1038 / nchem.2161 , PMID 25698335
4. ↑ Duden Learnattack GmbH: Alkali Metals