Examples of lanthanide in the following topics:
-
- Lanthanides and actinides are elements of the inner transition series of the periodic table.
- The 14 elements (numbers 58 to 71) of the lanthanide series are also known as the rare earth elements.
- Most lanthanides are formed when uranium and plutonium undergo nuclear reactions.
- This phenomenon is known as the lanthanide contraction.
- All the lanthanide elements exhibit the oxidation state +3.
-
- The atomic number that should be here, 57, is located at the bottom of the table in the row called the Lanthanides.
- By expanding the horizontal dimensions of the table, the actinide and lanthanide rows can be put into their correct relative positions.
- In 1934 only 4 actinides were known, all smaller than uranium, so it was not known that they formed a period or family like the lanthanides.
- The actinides were added along with the lanthanides.
- The lanthanides and actinides are added as separate but connected rows, building what is called the f-block.
-
- The size of the magnetic moment on a lanthanide atom can be quite large, as it can carry up to seven unpaired electrons, in the case of gadolinium(III) (hence its use in MRI).
-
- Typically they either have low-charge (Na+), electrons in d orbitals that are antibonding with respect to the ligands (Zn2+), or lack covalency (Ln3+, where Ln is any lanthanide).
-
- Due to their large size, lanthanides, actinides, and early transition metals tend to have high coordination numbers.
-
- The f block, usually offset below the rest of the periodic table, includes the lanthanides and actinides.
-
- However, in the d-block, trends across periods become significant, and the f-block elements show a high degree of similarity across periods (particularly the lanthanides).
-
- Larger fullerenes are found to encapsulate lanthanide metal atoms.