- F-block
The f-block of the
periodic table of the elements consists of those elements (sometimes referred to as the "inner transition elements") for which, in the atomicground state , the highest-energyelectron s occupy f-orbitals.Unlike the other blocks, the conventional divisions of the f-block follow periods of similar
atomic number rather than groups of similarelectron configuration . Thus, the f-block is divided into thelanthanoid series and theactinoid series. [ [http://www.iupac.org/reports/periodic_table IUPAC Periodic Table] ] [ [http://www.iupac.org/reports/periodic_table/IUPAC_Periodic_Table-22Jun07b.pdf IUPAC Periodic Table 2007 .pdf] ]The name 'inner transition' is derived by analogy with the
transition metal s.Like the s-block, the elements of the f-block are highly reactive metals. They catch fire in air very easily, and react with
water to liberatehydrogen . Physically they are denser and have higher melting andboiling point s than thealkaline earth metals , but their reactivity makes them of very limited use structurally. They are used together to makecigarette lighter flints because they catch fire in air so easily. Most of them are extracted byelectrolysis of molten chlorides: the metals are much too reactive to be extractable from aqueous solutions.The compounds of most f-block elements are ionic salts with M3+ ions, often hydrated in aqueous solutions.
Cerium also forms a small series of strongly oxidising compounds with the +4oxidation state , including ceric oxide (CeO2). The "lighter" actinides (protactinium toamericium ) have f-electrons that can participate in bonding and form compounds in a variety of oxidation states from +2 to +6. Owing to the pulling of the inner f-electrons towards the nucleus, the "heavier" actinides (curium tolawrencium ) tend not to use their inner f-electrons and resemble the lanthanides in forming salts with M3+ ions.Interactive f-orbital models can be found at this site: [http://www.d.umn.edu/~pkiprof/ChemWebV2/AOs/ao4.html]
References
ee also
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Electron configuration External links
[http://www.uky.edu/~holler/html/f.html Images of f-orbitals]
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