Pharmaceutical Organic Chemistry I Lecture Notes PDF

Summary

Lecture notes on Pharmaceutical Organic Chemistry I, covering various concepts such as hybridization (sp3, sp2, sp), types of chemical bonds (ionic, covalent, polar, non-polar), and aspects of electronegativity. Presented by Prof. Dr. Omneya M. Khalil.

Full Transcript

Pharmaceutical Organic Chemistry I
Prof. Dr. Omneya M. Khalil

Vice Dean For Education and Student affairs,
Faculty of Pharmacy, MTI University

1
 Introduction

2
 What is Hybridization?
sis the concept of mixing atomic orbitals to
form new hybrid ones suitable for the pairing of
electrons to form chemical bonds.

s Types of Hybridization
S 1- sp3
2- sp2
3- sp

3
s 1- sp3 Hybridization: e.g. Methane CH4

Ground state (lowest energy state) for a neutral
carbon ( 6C12) 1s2 2s2 2p2

How does the C form 4 bonds if it has only
2 half-filled p orbitals available for bonding?

Answer: orbital hybridization
Excited state by absorbing energy, electron
configuration is 1s2 2s1 2p3

the 4 valence orbitals of the carbon (one 2s & three
2p orbitals) combine to form 4 equivalent hybrid
orbitals, which are called sp3 orbitals

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sp3 Hybridization: e.g. Methane CH4

3 dimensional space

to minimize repulsion

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 Tetrahedral with bond angles of 109.5o

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s 2- sp2 Hybridization:

tetrahedral geometry which gives idealized
bond angles of 109.3o.

Open chain= aliphatic

s orbital is mixed with only 2 p orbitals

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s 2- sp2 Hybridization:

tetrahedral geometry which gives idealized
bond angles of 109.3o.

3 sp2 orbitals are arranged in a
trigonal planar geometry (120o)

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s 2- sp2 Hybridization: e.g. Ethylene C2H4

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s 2- sp2 Hybridization: e.g. Ethylene C2H4
2 sp2 hybridized C atoms can make a sigma s
bond by overlapping one of the 3 sp2 orbitals

2 H make sigma s bonds with each C by
overlapping their s orbitals with the other
2 sp2 orbitals.
which gives idealized bond angles of 109.3o.

11
s 2- sp2 Hybridization:

The unhybridized 2p in both C’s are left available
to form the double bond’s π bond
(side-by-side overlap of 2 p orbitals).

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2- sp2 Hybridization:

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s 3- sp Hybridization: e.g. Acetylene C2H2

Involves the mixing of one s and one p orbital of an
atom resulting in the formation of 2 new equivalent
orbitals

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15
 Linear with bond angles of 180o

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 Difference between sp3, sp2 & sp
Category sp3 sp2 sp
Number of 4 3 2
Hybridized
Orbitals
Number of Zero 1 2
Unhybridized
Orbitals
Geometry Tetrahedral Trigonal Linear
around planar
Central Atom
Bond Angle 109.5 120 180
around
Central Atom (∘)

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Single carbon–carbon (C–C) bonds are formed
from one sigma bond (s)

Double (C=C) bonds are formed from one
sigma bond (s) and one π bond.

Triple bonds are formed through

the combination of one sigma bond (s) and
two π bonds.

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 Electronegativity ( EN )
It is the ability of an atom to
attract electrons.

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 Electronegativities of Selected Elements

Li3 Be4 B5 C6 N7 O8 F9
1.0 1.57 2.0 2.55 3.04 3.44 4.0

Decrease in EN
Increase in EN Cl17
3.16
Br35
2.96
I53
2.66
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 Types of chemical
bonds
According to the difference in EN between
2 atoms therefore we can determine
the type of chemical bond.

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 Types of chemical
bonds

Ionic Covalent
Difference in EN >2

Polar Non polar
Difference in EN 2

It is the transfer of an electron from one atom
to another
e.g. Na+Cl- , K+Br-

The atom that donates the electrons becomes
+vely charged and called cation,
while the atom which receives electrons becomes
–vely charged and called anion.

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Covalent bond:
It is the sharing of electrons between 2
atoms.
A- Non polar covalent bond : Difference in EN=0.5-zero
The bond between 2 atoms of same EN
e.g. C-C , Br-Br

or near to each other e.g. C-H

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 B- Polar covalent bond:
Formed when the difference in EN is