๐Ÿ’intro to chemistry review

key term - Strong-field ligands

Definition

Strong-field ligands are ligands that create a significant splitting of the d-orbitals in a metal complex, leading to low-spin configurations when possible. They typically have high ligand field strength and can greatly affect the spectroscopic and magnetic properties of coordination compounds.

5 Must Know Facts For Your Next Test

  1. Strong-field ligands cause a large crystal field splitting energy ($\Delta$), which often results in low-spin complexes.
  2. Common examples of strong-field ligands include CN$^-$, CO, and NH$_3$.
  3. The presence of strong-field ligands can lead to diamagnetic behavior in coordination compounds due to paired electrons.
  4. In an octahedral field, strong-field ligands can lead to electron pairing in the lower-energy t$_{2g}$ orbitals before filling the higher-energy e$_g$ orbitals.
  5. The spectrochemical series ranks ligands based on their ability to split d-orbital energies, with strong-field ligands appearing at the high end of this series.

Review Questions

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