Revision as of 14:59, 23 September 2015 edit Double sharp (talk \| contribs) Autopatrolled, Extended confirmed users, Page movers, File movers, Pending changes reviewers 103,198 edits m →Properties ← Previous edit		Revision as of 10:06, 8 December 2015 edit undo RProgrammer (talk \| contribs) 429 edits I'm pretty sure they mean radiation chemistry not radiochemistry Next edit →
Line 1: A '''solvated electron''' is a [[particle\|free]] [[electron]] in (solvated in) a [[solution]], and is the smallest possible [[anion]]. Solvated electrons occur widely although they are often not observed directly. The deep color of solutions of alkali metals in [[ammonia]] arises from the presence of solvated electrons: blue when dilute and copper-colored when more concentrated (> 3 molar).<ref name="c&w">{{cite book \|last=Cotton \|first=F.A \|authorlink= \|author2=G. Wilkinson \|title=Advanced Inorganic Chemistry \|year=1972 \|publisher=John Wiley and Sons Inc \|___location= \|isbn=0-471-17560-9 }}</ref> Classically, discussions of solvated electrons focus on their solutions in ammonia, which are stable for days, but solvated electrons occur in water and other solvents, in fact, any solvent that mediates [[outer-sphere electron transfer]]. The solvated electron is responsible for a great deal of [[~~Radiochemistry\|~~radiation chemistry]]. ==Properties== Focusing on ammonia solutions, all of the alkali metals, as well as [[calcium\|Ca]], [[strontium\|Sr]], [[barium\|Ba]], [[europium\|Eu]], and [[ytterbium\|Yb]] (also [[magnesium\|Mg]] using an electrolytic process<ref>C. Combellas, F. Kanoufi, A. Thiebault, ''J. Electroanalytical Chem'' 499(1), 144-151 (2001) {{DOI\|10.1016/S0022-0728(00)00504-0}}</ref>), dissolve to give the characteristic blue solutions. Other amines, such as [[methylamine]] and [[ethylamine]], are also suitable solvents.<ref>{{Greenwood&Earnshaw2nd}}</ref> A lithium ammonia solution at −60 °C is saturated at about 16 mol% metal (16 MPM in the local jargon). When the concentration is increased in this range [[electrical conductivity]] increases from 10<sup>−2</sup> to 10<sup>4</sup> [[ohm]]<sup>−1</sup>[[Centimetre\|cm]]<sup>−1</sup> (larger than liquid [[mercury (element)\|mercury]]). At around 8 MPM, a "transition to the metallic state" (TMS) takes place (also called a "metal to nonmetal transition" (MNMT)). At 4 MPM a liquid-liquid phase separation takes place: the less dense gold-color phase becomes immiscible from a more dense blue phase. Above 8 MPM the solution is bronze/gold-colored. In the same concentration range the overall [[density]] decreases by 30%.

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