Pharmaceutical Organic Chemistry I PC101 PDF

Summary

This document covers Pharmaceutical Organic Chemistry I, specifically focusing on the topic of alkenes. It includes intended learning outcomes, nomenclature, and preparation methods. The material also contains examples and illustrations, making it useful for students in the field.

Full Transcript

Pharmaceutical Organic Chemistry I PC101

Alkenes
Mona S. El-Zoghbi, Ph. D. Pharm. Sc.
Associate professor of pharmaceutical Chemistry
Pharmaceutical Chemistry Department
[email protected]
Intended learning outcomes of the course (ILOs)
On successful completion of the course, you should be able to:

❖Recognize several organic terms.

❖Underline the different types of chemical bonds.

❖Recognize the different classes of organic compounds.

❖Assess the structural feature of organic compound and its IUPAC name.

❖Demonstrate alkanes, alkenes, alkynes and alkyl halides (nomenclature, physical and chemical
properties, preparation and chemical reactions).

❖ Classify different reaction mechanism.

❖ Outline fundamental principles and applications of stereochemistry, stereo-dynamic, hydroxyl and
carbonyl compounds.
❖ Identify the principles of aromaticity and benzenoid compounds.
 Unsaturated Hydrocarbons

I. Alkenes
CnH2n
carbon-carbon double bond
sp2 hybridized
with bond angle 120º
Nomenclature of alkenes:
I. I.U.P.A.C. Nomenclature:
Select the longest continuous chain containing double bond.

Name the chain according to number of carbon atoms and replace the suffix

“-ane” by “-ene”.

Number the chain and give the double bond the lowest possible number

The substituents are named and their positions are indicated.
eg. CH3 CH2 CH2 CH CH2 CH2 CH3

CH CH2
3-propyl-1-hexene
CH3
eg. CH3 CH2 CH CH CH2 CH CH3

6-methyl-3-heptene
II. Common or trivial names:
Naming the common name of the corresponding alkane and we replace the suffix
“-ane" with “-ylene”.

CH2=CH2 "ethylene"

CH3–CH=CH2 "propylene"

CH3–CH2–CH=CH2 "α-butylene or 1-butylene"

CH3–CH=CH–CH3 "β-butylene or 2-butylene"

CH3
CH3 C CH2 "Isobutylene"
As derivatives of ethylene:

CH3–CH=CH2 "methylethylene"

CH3–CH=CH–CH3 "sym.dimethyl ethylene”.

CH3 CH2 C CH2 "Asym. diethylethylene."
CH2 CH3
Unsaturated alkyl groups:

Remove the letter “e” from alkene and replace it by “–yl” to be alkenyl

The attachment is always number one

The number indicates the position of the double bond
-H
CH2 CH2 CH2 CH
"ethene" "ethenyl" or "vinyl"
-H
CH3 CH CH2 CH2 CH CH2
"Propene" "2-propenyl" or "allyl"
-H
CH3 CH CH
"1-propenyl"
 Unsaturated Hydrocarbons containing two or
more double bonds.

Compounds containing two double bonds "CnH2n–2"

Compounds containing three double bonds "CnH2n–4".

I.U.P.A.C. nomenclature:

Select the longest continuous chain containing the maximum number of double bonds
Name the chain according to number of carbon atoms and replace the suffix “-ane” by
“-diene” if two double bonds and by “- triene” if three double bonds
Number the chain giving the double bonds the lowest possible numbers.
CH3 CH2
eg. CH3 C C CH2 C CH2 CH3
CH3
"2-Ethyl-4,5-dimethyl-1,4-hexadiene"
 Preparation of alkenes:
I. By reduction of alkynes:

R R
H2/Ni2 B or
C C
H2/Pd-CaCO3
H H
syn addition
R C C R "cis-alkene"

Na or Li/NH3 R H
trans addition C C
H R
"Trans-alkene"
II. By Elimination Reactions:

1. From alkyl halides: “Dehydrohalogenation"

H
alcoholic KOH/
C C C C
- HX
X

alc. KOH
eg. CH3 CH2 CH CH3 CH3 CH CH CH3 +
- HBr
Br "major"
CH3 CH2 CH CH2
"minor"
The order of reactivity and hence the elimination of halogen

iodine more than bromine more than chlorine more than fluorine

tertiary alkyl halides are more reactive than secondary than primary

Saytzeff's rule:
The predominant alkene is the most substituted one
 Saytzeff's rule:
2. From dihalides: "dehalogenation"
Zn/HAc
C C C C
- X2
X X
vicinal dihalide

Zn/HAc
CH3 CH CH CH3 CH3 CH CH CH3
- Br2
Br Br
"2,3-Dibromobutane" "2-butene"
3. From alcohols: "Dehydration"
Conc. H2SO4
C C C C + H2O
160 - 180oC
H OH