Molecular Orbital Theory Electrons in atoms exist in atomic orbitals Electrons in molecules exist in molecular orbitals (MOs) Using Schrödinger equation,

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Presentation transcript:

Molecular Orbital Theory Electrons in atoms exist in atomic orbitals Electrons in molecules exist in molecular orbitals (MOs) Using Schrödinger equation, we can calculate the shapes and energies of MOs

Molecular Orbital Theory Rules: –combination of n atomic orbitals gives n MO –MOs are arranged in order of increasing energy –MOs fill by same rules as for atomic orbitals: Aufbau principle: fill beginning with LUMO Pauli exclusion principle: no more than 2 e - in a MO Hund’s rule: filling of degenerate orbitals

Molecular Orbital Theory Terminology –ground state = lowest energy –excited state = NOT lowest energy –  = sigma bonding MO –  * = sigma antibonding MO –  = pi bonding MO –  * = pi antibonding MO

Hybrid Orbitals Shapes of Atomic Orbitals (s,p,d,f....) Wave function may be –positive or negative –or zero at a nodal surface Hybridization of orbitals (L. Pauling) –the combination of two or more atomic orbitals to form a new set of atomic orbitals, called hybrid atomic orbitals

Hybrid Orbitals The Problem: –2s and 2p atomic orbitals would give bond angles of approximately 90° –instead we observe approximately 109.5°,120°, and 180° A Solution –hybridization of atomic orbitals –2nd row elements use sp 3, sp 2, and sp hybrid orbitals for bonding

Hybrid Orbitals We deal with three types of hybrid atomic orbitals sp 3 (1 s orbital + 3 p orbitals) sp 2 (1 s orbital + 2 p orbitals) sp (1 s orbital + 1 p orbital)

Overlap of hybrid atomic orbitals can form two types of bonds, depending on the geometry of the overlap  bonds are formed by “direct” overlap  bonds are formed by “parallel” overlay Hybrid Orbitals

sp 3 Hybrid Orbitals –each sp 3 hybrid orbital has two lobes of unequal size –the sign of the wave function is positive in one lobe, negative in the other, and zero at the nucleus –the four sp 3 hybrid orbitals are directed toward the corners of a regular tetrahedron at angles of 109.5°

sp 2 Hybrid Orbitals –each sp 2 hybrid orbital has two lobes of unequal size –the three sp 2 hybrid orbitals are directed toward the corners of an equilateral triangle at angles of 120° –the unhybridized 2p orbital is perpendicular to the plane of the sp 2 hybrid orbitals

sp Hybrid Orbitals –each sp hybrid orbital has two lobes of unequal size –the sign of the wave function is positive in one lobe, negative in the other, and zero at the nucleus –the two sp hybrid orbitals lie in a line at an angle of 180° –the two unhybridized 2p orbitals are perpendicular to each other and to the line through the two sp hybrid orbitals

Hybrid Orbitals

Resonance For many molecules and ions, no single Lewis structure provides a truly accurate representation

Resonance Linus Pauling s –many molecules and ions are best described by writing two or more Lewis structures –individual Lewis structures are called contributing structures –connect individual contributing structures by a double-headed (resonance) arrow –the molecule or ion is a hybrid of the various contributing structures

Resonance Examples:

Resonance Curved arrow: a symbol used to show the redistribution of valence electrons In using curved arrows, there are only two allowed types of electron redistribution: –from a bond to an adjacent atom –from an atom to an adjacent bond Electron pushing is a survival skill in organic chemistry. Learn it well!

Resonance All acceptable contributing structures must 1. have the same number of valence electrons 2. obey the rules of covalent bonding –no more than 2 electrons in the valence shell of H –no more than 8 electrons in valence shell of 2nd period elements –3rd period elements may have up to 12 electrons in their valence shells 3. differ only in distribution of valence electrons 4. have the same number of paired and unpaired electrons

Resonance Examples of ions and a molecule best represented as resonance hybrids

Resonance Preference 1: structures with filled valence shells contribute more than those with unfilled valence shells

Resonance Preference 2: structures with a greater number of covalent bonds contribute more than those with fewer covalent bonds

Resonance Preference 3: structures with separation of unlike charges contribute less than those with no charge separation

Resonance Preference 4: structures that carry a negative charge on the more electronegative atom contribute more than those with the negative charge on the less electronegative atom

Resonance involves locations of electrons in p-orbitals of  -bonds

Example