Back Bonding in BF3

What is Back Bonding?

Back Bonding is a concept in chemistry where electrons move from an atomic orbital on one atom to an appropriate symmetry anti-bonding orbital on a π-acceptor ligand. It is also called π backdonation. This electron transfer strengthens the metal-ligand bond and weakens the ligand-ligand bond. It is especially common in the organometallic chemistry of transition metals....

Characteristics of Back bonding

The characteristics of Back bonding are:...

Pi Back bonding

Pi Back Bonding, or pi back donation, is a chemical phenomenon in which electrons move from an atomic orbital on one atom to an appropriate symmetry anti-bonding orbital on another atom or ligand....

Back Bonding in BF3

In BF3, boron has an empty p-orbital, while each of the three fluorine atoms possesses a lone pair of electrons in its p-orbital. Consequently, boron acts as a Lewis acid, while fluorine serves as a Lewis base. The p-electron from fluorine drifts into the empty p-orbital of boron, resulting in a pi-bonding interaction known as back bonding....

Back Bonding in Metal Carbonyls

Back Bonding in metal carbonyls is a type of bonding that occurs between a metal center and a carbonyl ligand. In this type of bonding, electrons are partially transferred from a d-orbital of the metal to anti-bonding molecular orbitals of the carbonyl ligand. This interaction strengthens the metal-carbonyl bond and weakens the C-O bond....

Back Bonding vs Coordinate Bonding

The difference between Back bonding and Coordinate bonding is as follows:...

Back Bonding JEE Questions

Q1: The bond dissociation energy of B–F in BF3 is 646 kJ mol-1, whereas that of C–F in CF4 is 515 kJ mol–1. The correct reason for higher B–F bond dissociation energy as compared to that of C–F is...

Back Bonding Frequently Asked Questions

What is Meant by Back Bonding?...