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Lecture
Crystal Field Stabilization Energy Calculation
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Related lectures (30)
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Ligand Field Theory: Crystal Field Splitting
Delves into ligand field theory, crystal field splitting, and molecular orbitals in transition metal complexes.
Crystal Field Theory: Spectrochemical Series
Explores the Spectrochemical Series for metals and ligands, Crystal Field Splitting, Jahn-Teller distortion, and bonding interactions in coordination compounds.
Crystal Field Theory: Square Planar Complexes
Explores crystal field theory, focusing on square planar complexes and the spectrochemical series.
Ligand Field Theory
Explores Ligand Field Theory, color theory, transition metal complexes, and protein stability.
Ligand Field Theory: Octahedral Coordination Complexes
Covers ligand field theory for octahedral coordination complexes with pure sigma donors.
Chemical Bonding: Lewis Structures and Molecular Shapes
Explores chemical bonding, Lewis structures, molecular shapes, and molecular polarity.
Ligand Field Theory: Pi-Acceptors and Electrochemical Series
Explores ligand field theory, pi-acceptors, bonding in complexes, and spectrochemical series in 3-d metals.
Pi-Donor and P-Acceptor Ligands
Explores the impact of pi-donor and p-acceptor ligands on ligand field splitting diagrams and metal orbitals in coordination complexes.
Splitting Diagrams: Crystal Field Stabilization Energy
Explains splitting diagrams and Crystal Field Stabilization Energy calculations for transition metal complexes.
Crystal Field Theory: Octahedral and Tetragonal Distortions
Explores Crystal Field Theory, analyzing d orbital splitting in different geometries.
