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Questions and Answers
What term describes compounds that have the same molecular formula and connectivity but different spatial arrangements?
What term describes compounds that have the same molecular formula and connectivity but different spatial arrangements?
In coordination compounds, what is the coordination number (CN) based on?
In coordination compounds, what is the coordination number (CN) based on?
Which of the following ligands can rotate plane-polarized light in opposite directions?
Which of the following ligands can rotate plane-polarized light in opposite directions?
What type of isomerism occurs when the same composition of ligands bond to the central metal in different geometries?
What type of isomerism occurs when the same composition of ligands bond to the central metal in different geometries?
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Which category of ligands includes molecules or ions that donate electrons to form coordinate covalent bonds with the central metal?
Which category of ligands includes molecules or ions that donate electrons to form coordinate covalent bonds with the central metal?
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What is the coordination number for a complex with square planar geometry?
What is the coordination number for a complex with square planar geometry?
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Which theory focuses on the electrostatic interactions between the central metal ion and ligands in coordination compounds?
Which theory focuses on the electrostatic interactions between the central metal ion and ligands in coordination compounds?
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In which applications are coordination compounds commonly used?
In which applications are coordination compounds commonly used?
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Which coordination number is associated with a complex having octahedral geometry?
Which coordination number is associated with a complex having octahedral geometry?
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Which type of bonding theory describes the formation of new molecular orbitals from the overlap of atomic orbitals on the central metal and ligand atoms?
Which type of bonding theory describes the formation of new molecular orbitals from the overlap of atomic orbitals on the central metal and ligand atoms?
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Study Notes
Coordination Compounds: Understanding Bonds and Ligands in Complex Structures
Coordination compounds, also known as complexes, are substances formed when a central metal atom or ion is surrounded by one or more ligands. Ligands are molecules or ions that donate electrons, forming coordinate covalent bonds with the central metal. This interaction between the central metal and ligands results in a vast array of coordination compounds with diverse chemical and physical properties.
Ligands and Their Types
Ligands come in various forms, such as:
- Anions (e.g., Cl-, OH-, and CN-)
- Neutral molecules (e.g., NH3, CO, and H2O)
- Cations (e.g., NH4+ and [Al(H2O)6]3+)
Ligands can also be classified according to their donor atoms (e.g., O, N, S) and the number of electrons they donate, known as their coordination number (CN).
Isomerism in Coordination Compounds
Coordination compounds exhibit several types of isomerism, including:
- Structural isomers: When the same composition of ligands bond to the central metal in different geometries.
- Stereoisomers: Compounds with the same molecular formula and connectivity but different spatial arrangements.
- Optical isomers (enantiomers): Non-superimposable mirror images of the same compound, which can rotate plane-polarized light in opposite directions.
Coordination Number
The coordination number (CN) refers to the number of ligands directly bound to the central metal ion. Common coordination numbers include 2, 4, 6, and 8. The geometry of the complex is often related to its coordination number, with examples such as linear (CN = 2, e.g., MO2), tetrahedral (CN = 4, e.g., MX4), square planar (CN = 4, e.g., [Ni(CN)4]2-), and octahedral (CN = 6, e.g., M(OH)6).
Bonding Theories
Several bonding theories attempt to describe the interactions between the central metal ion and ligands in coordination compounds.
- Crystal field theory (CFT): This theory focuses on the electrostatic interactions between the central metal ion and the ligands, leading to splitting of the metal d-orbitals and the formation of d-electron energy levels.
- Molecular orbital theory (MOT): This theory describes the formation of new molecular orbitals from the overlap of atomic orbitals on the central metal and ligand atoms.
- Covalent bonding theory: In some cases, coordination compounds form covalent bonds, particularly when the central metal has a low oxidation state or when the ligand is a neutral molecule.
Applications and Uses
Coordination compounds have many applications in various fields, including:
- In catalysis, as active sites in enzymes, and in homogeneous catalysis.
- In analytical chemistry, as colorimetric probes or chromophores in complexometric titrations.
- In coordination polymers, such as metal-organic frameworks (MOFs), for gas storage and separation applications.
- In coordination compounds of transition metals, such as porphyrins and phthalocyanines, as photocatalysts or in solar energy conversion devices.
Coordination chemistry is a rapidly evolving field with ongoing research into the properties and applications of coordination compounds. The diversity of coordination compounds and their ability to form complex structures with unique properties make them valuable tools in various scientific disciplines.
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Description
Test your knowledge on coordination compounds, ligands, isomerism, coordination numbers, bonding theories, and applications in various fields. Understand how different ligands interact with central metal atoms to form complex structures with diverse properties.
