This allows for more nuclear stability, as explained in the Oddo-Harkins rule. In all the ores, the atoms with a even atomic number are more abundant. Euxenite: contains a fairly even distribution of the Lanthanides.Xenotime: contains mostly the heavier Lanthanides.The commercial mining of monazite sands in the United States is centered in Florida and the Carolinas ![]() Monazite: contains mostly the lighter Lanthanides.The three main mineral sources are the following: However, each mineral contains different concentrations of the individual Lanthanides. The rest of the elements are paramagnetic.Įach known Lanthanide mineral contains all the members of the series. The diamagnetic ions are: La 3 +, Lu 3 +, Yb 2 + and Ce 4 +. The species are either diamagnetic, meaning they have no unpaired electrons, or paramagnetic, meaning that they do have some unpaired electrons. The major magnetic properties of any chemical species are a result of the fact that each moving electron is a micromagnet. Another property of the Lanthanides is their magnetic characteristics. Basicity differences are shown in the solubility of the salts and the formation of the complex species. In other words, the basicity decreases as the atomic number increases. For the Lanthanides, the basicity series is the following: In simple terms, basicity refers to have much of a base a species is. In another words, it would be the lack of attraction that a cation has for electrons or anions. Basicity is a measure of the ease at which an atom will lose electrons. One property of the Lanthanides that affect how they will react with other elements is called the basicity. Table 1: Electron Configurations of the Lanthanide Elements Symbol This means that the 4f orbital is not shielded from the increasing nuclear change, which causes the atomic radius of the atom to decrease that continues throughout the series. However, the problem with this technique with respect to the Lanthanide elements is the fact that the 4f and 5d sub-shells have very similar energy levels, which can make it hard to tell the difference between the two.Īnother important feature of the Lanthanides is the Lanthanide Contraction, in which the 5s and 5p orbitals penetrate the 4f sub-shell. The technique used is based on the fact that each line in an emission spectrum reveals the energy change involved in the transition of an electron from one energy level to another. The electron configurations of these elements were primarily established through experiments. This means that the electron start to fill the 4f sub-shell before the 5d sub-shell. After Lanthanum, the energy of the 4f sub-shell falls below that of the 5d sub-shell. These elements are different from the main group elements in the fact that they have electrons in the f orbital. Similarly, the Lanthanides have similarities in their electron configuration, which explains most of the physical similarities. Ionic complexes undergo rapid ligand-exchange.A preference for more electronegative elements (such as O or F) binding.Tendency to decreasing coordination number across the series. ![]()
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