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The ionic potential gives an indication of how strongly, or weakly, the ion will be electrostatically attracted by ions of opposite charge; and to what extent the ion will be repelled by ions of the same charge.
Victor Moritz Goldschmidt, the father of modern geochemistry found that the behavior of an element in its environment could be predicted from its ionic potential and illustrated this with a diagram (plot of the bare ionic radius as a function of the ionic charge). For instance, the solubility of dissolved iron is highly dependent on its redox state. Fe2+
with a lower ionic potential than Fe3+
is much more soluble because it exerts a weaker interaction force with OH−
ion present in water and exhibits a less pronounced trend to hydrolysis and precipitation. Under reducing conditions Fe(II) can be present at relatively high concentration in anoxic water, similar to these encountered for other divalent species such as Ca2+
. However, once anoxic ground water is pumped from a deep well and is discharged to the surface, it enters in contact with atmospheric oxygen. Then Fe2+
is easily oxidized to Fe3+
and this latter rapidly hydrolyzes and precipitates because of its lower solubility due to a higher z/r ratio.
Millot (1970) also illustrated the importance of the ionic potential of cations to explain the high, or the low, solubility of minerals and the expansive behaviour (swelling/shrinking) of clay materials.
The ionic potential of the different cations (Na+
) present in the interlayer of clay minerals also contribute to explain their swelling/shrinking properties. The more hydrated cations such as Na+
are responsible for the swelling of smectite while the less hydrated K+
cause the collapse of the interlayer. In illite, the interlayer is totally collapsed because of the presence of the poorly hydrated K+
- "Ionic potential". A Dictionary of Earth Sciences 1999, originally published by Oxford University Press 1999. Retrieved 17 April 2017.CS1 maint: location (link)
- Railsback, Bruce. "Ionic potential" (PDF). Retrieved 16 July 2020.
- Kauffman, George B. (1997). "Victor Moritz Goldschmidt (1888 – 1947): A tribute to the founder of modern geochemistry on the fiftieth anniversary of his death". The Chemical Educator. 2 (5): 1–26. doi:10.1007/s00897970143a. ISSN 1430-4171. S2CID 101664962.
- Millot, Georges (1970). Geology of clays: weathering – sedimentology – geochemistry. Springer Science & Business Media. doi:10.1007/978-3-662-41609-9. ISBN 978-3-662-41611-2.
- Delville, Alfred; Laszlo, Pierre (1990). "The origin of the swelling of clays by water". Langmuir. 6 (7): 1289–1294. doi:10.1021/la00097a017. ISSN 0743-7463.
- Li, Ronghui; Yang, Weiyi; Su, Yu; Li, Qi; Gao, Shian; Shang, Jian Ku (2014). "Ionic potential: A general material criterion for the selection of highly efficient arsenic adsorbents". Journal of Materials Science & Technology. 30 (10): 949–953. doi:10.1016/j.jmst.2014.08.010. ISSN 1005-0302.
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