Lecture
Splitting Diagrams: Crystal Field Stabilization Energy
In course
DEMO: dolor labore veniam enim
Cillum est est Lorem duis dolor deserunt sit. Reprehenderit adipisicing cillum labore aliquip minim ipsum et sint officia. Dolore dolore do commodo officia est non laborum ex aliqua. Ad laborum enim ipsum minim magna sint proident. Nulla minim eiusmod voluptate magna nostrud magna.
Description
This lecture covers the concept of splitting diagrams in crystal field theory, focusing on the Crystal Field Stabilization Energy (CFSE) calculations for different coordination geometries and oxidation states of transition metal complexes. The instructor explains the impact of ligand field strength on the CFSE values and how to determine the electronic configuration of metal ions in complex compounds.
Instructor
magna veniam magna
Consectetur dolore elit adipisicing consectetur non consequat consequat voluptate mollit exercitation. Eu culpa consectetur velit aute irure nulla ex dolor non sit incididunt ex voluptate. Dolore ea ad exercitation dolor exercitation reprehenderit minim sunt.
Official source
About this result
This page is automatically generated and may contain information that is not correct, complete, up-to-date, or relevant to your search query. The same applies to every other page on this website. Please make sure to verify the information with EPFL's official sources.
Ontological neighbourhood
Related lectures (36)
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: Octahedral Coordination Complexes
Covers ligand field theory for octahedral coordination complexes with pure sigma donors.
Coordination Chemistry: Ligands and Geometries
Covers coordination numbers, common ligands, and preferred geometries in coordination chemistry, emphasizing the spatial distribution between ligands and the role of d⁸ electron configurations.
Coordination Chemistry: Chapter 3
Delves into Chapter 3 of Coordination Chemistry, exploring spherical and planar geometries, ligand effects, and MO diagrams.