Coordination Compounds

This topic describes the main postulates of Werner’s theory of coordination compounds in detail with examples. It further explains the difference between a double salt and a complex.

This topic presents the definition of important terms related to coordination compounds. Here, it defines the central atom, ligands, coordination entity, coordination sphere, oxidation number of central atom, etc.

This topic discusses the nomenclature of coordination compounds. It covers the formulas of mononuclear coordination entities and the naming of mononuclear coordination compounds in detail with examples.

This topic describes stereo and structural isomerism. It explains geometrical and optical isomerism in stereoisomerism along with their representation. It further discusses the sub-division of structural isomerism in detail.

This topic describes valence bond theory related to atomic orbitals and the electronic configuration of an element. It also contains different approaches and concepts related to the valence bond theory.

In this topic, we will understand the nature of bonding in coordination compounds in terms of crystal field theory with the help of examples and pictorial illustrations.

In this topic, we will know about the bonding in metal carbonyls. It presents the structure of homoleptic metal carbonyls. Further, it also discusses the synergic bonding interactions in a carbonyl complex through pictorial representation.

In this topic, we will discuss the factors affecting the stability of coordination compounds with the help of examples.

This topic discusses the importance and applications of coordination compounds. These compounds are present in plants, animals and minerals and play an important role in metallurgical processes, analytical and medicinal chemistry, which are discussed here.