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Coordination Chemistry

Coordination Chemistry. Instructor: Prof. Debashis Ray, Department of Chemistry, IIT Kharagpur. It will give an excellent opportunity to study and use the century old Nobel prize winning knowledge of coordination chemistry. The study will also lead to understand the difference between a coordinated ligand and charge balancing ion in a coordination compound. Complexation reactions, stability constants, structures, geometrical and optical isomerism, bonding, reactions and reactivity will be discussed. Color and electronic, and magnetic properties will be delineated with respect to their application in analytical chemistry, industry and medicine. Use of coordination compounds of some precious metal ions will be explained in relation to homogeneous catalysis for the production of useful organic and pharmaceutically important substances. (from nptel.ac.in)

Lecture 25 - Tanabe Sugano Diagram


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Lecture 01 - Introduction
Lecture 02 - Definition
Lecture 03 - Classification of Ligands
Lecture 04 - Classification of Ligands (cont.)
Lecture 05 - Classification of Ligands (cont.), Nomenclature
Lecture 06 - Nomenclature (cont.)
Lecture 07 - Coordination Number I
Lecture 08 - Coordination Number II
Lecture 09 - Coordination Number III
Lecture 10 - Coordination Number IV
Lecture 11 - Isomerism
Lecture 12 - Isomerism (cont.)
Lecture 13 - Coordination Equilibria
Lecture 14 - Coordination Equilibria (cont.)
Lecture 15 - Bonding in Complexes I
Lecture 16 - Bonding in Complexes II
Lecture 17 - Bonding in Complexes III
Lecture 18 - Bonding in Complexes IV
Lecture 19 - Jahn-Teller Effect
Lecture 20 - Spin Crossover and Colour
Lecture 21 - Optical Spectra
Lecture 22 - d-d Transitions
Lecture 23 - Charge Transfer Transitions
Lecture 24 - Orgel Diagram
Lecture 25 - Tanabe Sugano Diagram
Lecture 26 - MLCT Transitions
Lecture 27 - Application of the Crystal Field Theory
Lecture 28 - Spinels
Lecture 29 - Magnetochemistry
Lecture 30 - Magnetic properties
Lecture 31 - Magnetic Measurements
Lecture 32 - Ligand Field Theory
Lecture 33 - Sigma Orbitals
Lecture 34 - Pi Orbitals
Lecture 35 - Reaction Mechanism I
Lecture 36 - Reaction Mechanism II
Lecture 37 - Reaction Mechanism III
Lecture 38 - Reaction Mechanism IV
Lecture 39 - Reaction Mechanism V
Lecture 40 - Biological Inorganic Chemistry