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Transition Metal Chemistry: Crystal Field Theory

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Title: Transition Metal Chemistry: Crystal Field Theory


1
Transition Metal ChemistryCrystal Field Theory
  • Jessica Comstock
  • Kata Haeberlin
  • Kelsey Fisher

2
Transition Metals
  • elements in which the d and f subshells are
    progressively filled
  • 50 elements
  • transition elements with incomplete d subshells
    tend to form complex ions (Chang 935)

http//www.bbc.co.uk/schools/gcsebitesize/img/gcse
chem_14.gif
3
Periodic Trends
  • Going across a period, the valence doesn't
    change.
  • As a result, the electron being added to an atom
    goes to the inner shell, not outer shell,
    strengthening the shield.
  • Why are they called transition metals ?
  • The elements represent the successive addition of
    electrons to the d orbitals of the atoms.
    Transition metals represent the transition
    between group 2 and 13 elements.
  • (Wikipedia)

4
Properties
  • high tensile strength
  • high density
  • high melting and boiling points
  • often form colored compounds
  • solid at room temperature (except mercury)
  • form complex ions
  • often paramagnetic
  • (Wikipedia)

5
Oxidation States
  • Unlike group 1 and group 2 metals, transition
    element ions can have multiple stable oxidation
    states.
  • They can lose d electrons without a high
    energetic penalty (Wikipedia).

6
Crystal Field Theory
  • Developed in the 1930s by Hans Bethe and John
    Hasbrouck van Vleck
  • Model that describes electronic structure of
    transition metal compounds
  • Accounts for
  • Some Magnetic Properties
  • Colors
  • Hydration Enthalpies
  • Spinal Structure of Transition Metals

7
Splitting
  • Attraction between positively charged metal
    cation and negatively charged electrons of the
    ligand
  • Repulsion of electrons
  • Splitting affected by
  • Nature of metal ion
  • Oxidation State
  • Arrangement of ligands around the metal ion
  • Nature of the ligands

8
Spectrochemical Series
  • Energy difference ? depends on
  • Ligands
  • Geometry of the complex
  • I- lt Br- lt S2- lt SCN- lt Cl- lt NO3- lt N3- lt F- lt
    OH- lt C2O42- lt H2O lt NCS- lt CH3CN lt py lt NH3 lt en
    lt phen lt NO2- lt PPh3 lt CN- lt CO

9
High / Low Spin
  • Low Spin
  • Large ?
  • Strong-Field Ligand
  • Cn-, Co
  • High Spin
  • Small?
  • Weak-Field Ligand
  • I-, Br-

10
Color
  • Change in energy is equal to energy of the
    absorbed photon
  • Energy of absorbed photon is opposite of the
    color observed

11
References
  • http//www.bbc.co.uk/schools/gcsebitesize/img/gcse
    chem_14.gif
  • Chang, Raymond. Chemistry McGraw-Hill San
    Fransisco, 2007.
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