Presentation is loading. Please wait.

Presentation is loading. Please wait.

Alkynes.

Published byBoro Umek Modified over 5 years ago

Similar presentations

Presentation on theme: "Alkynes."— Presentation transcript:

1 Alkynes

2 Introduction Alkynes contain a triple bond.
General formula is CnH2n-2. Some reactions similar the reactions of alkenes, like addition and oxidation. Some reactions are specific to alkynes. Chapter 9

3 Alkynes: Molecular And Structural Formulae
The alkynes containing a series of carbon- and hydrogen- based compounds that contain at least one triple bond. This group of compounds is a homologous series with the general molecular formula of Cn H2n—2 The alkyne triple bond is containing of one σ and two 2  covalent bonds, the triple bond can be terminal or internal. The simplest alkyne, ethyne (also known as acetylene), has two carbon atoms and the molecular formula of C2H2. The structural formula for ethyne is: 3

4 Nomenclature: IUPAC Find the longest chain containing the triple bond.
Change -ane ending to -yne. Number the chain, starting at the end closest to the triple bond. Give branches or other substituents a number to locate their position. Chapter 9

5 Propyne 2,6-Dimethyl-3-heptyne 5-bromo-2-pentyne

6 Isobutyl isopropyl acetylene
Common Nomenclature C H 3 Methyl acetylene (terminal alkyne) Isopropylmethylacetylene C H 3 2 Isobutyl isopropyl acetylene (internal alkyne)

7 Physical Properties Nonpolar, insoluble in water.
Soluble in most organic solvents. Boiling points similar to alkane of same size. Less dense than water. Up to 4 carbons, gas at room temperature. Terminal alkynes, R-CC-H, are more acidic than other hydrocarbons.

8 Bond Lengths Triple bonds are shorter than double or single bonds because of the two pi overlapping orbitals . Chapter 9

9 Acidity Table Chapter 9

10 Acidity of Alkynes Terminal alkynes, are more acidic than other hydrocarbons due to the higher s character of the sp hybridized carbon . Terminal alkynes can be deprotonated quantitatively with strong bases such as sodium amide (-NH2). Hydroxide and alkoxide bases are not strong enough to deprotonate the alkyne quantitatively. Chapter 9

11 Dehydrohalogenation Reaction
Preparation of Alkynes Dehydrohalogenation Reaction Removal of two molecules of HX from a vicinal or geminal dihalide produces an alkyne. First step (-HX) is easy, forms vinyl halide. Second step, removal of HX from the vinyl halide requires very strong base and high temperatures. Chapter 9

12 Reagents for Elimination
Chapter 9

13

14 -Formation of Acetylide Ions
-H+ can be removed from a terminal alkyne by sodium amide, NaNH2 The acetylide ion is a strong nucleophile that can easily do addition and substitution reactions

15 - coupling of metal acetylides with 1o/CH3 alkyl halides
R-CC-Na R´X  R-CC-R´ + NaX

16

17

18 Catalytic Hydrogenation of Alkynes
- Addition of H2 over a metal catalyst (such as palladium on carbon, Pd/C) converts alkynes to alkanes (complete reduction) - A catalyst such as Pd, Pt, or Ni needs to be used for the reaction to occur.

19 Hydrogenation with Lindlar’s Catalyst

20 The catalyst used for the hydrogenation reaction is partially deactivated (poisoned), the reaction can be stopped after the addition of only one mole of hydrogen. The catalyst used is commonly known as Lindlar's catalyst and it is composed of powdered barium sulfate, coated with palladium poisoned with quinoline. The reaction produces alkenes with cis stereochemistry.

21 Mechanism Both substrates, the hydrogen and the alkyne, have to be adsorbed on the catalyst for the reaction to occur. Once adsorbed, the hydrogens add to the same side of the double bond (syn addition) giving the product a cis stereochemistry. Chapter 9

22

23 Reduction of Alkynes with Metal Ammonia
To form a trans alkene, two hydrogens must be added to the alkyne anti stereochemistry, so this reduction is used to convert alkynes to trans alkenes. Chapter 9

Download ppt "Alkynes."

Similar presentations

Ch 7- Alkenes and Alkynes I. Division of Material Alkenes and Alkynes are very versatile molecules in Organic Chemistry As a result, there is a lot of.

Ch 7- Alkenes and Alkynes I. Division of Material Alkenes and Alkynes are very versatile molecules in Organic Chemistry As a result, there is a lot of.
The (E)-(Z) System for Designating Alkene Diastereomers

The (E)-(Z) System for Designating Alkene Diastereomers
Chapter 9 Alkynes Jo Blackburn Richland College, Dallas, TX Dallas County Community College District  2003,  Prentice Hall Organic Chemistry, 5 th Edition.

Chapter 9 Alkynes Jo Blackburn Richland College, Dallas, TX Dallas County Community College District  2003,  Prentice Hall Organic Chemistry, 5 th Edition.
ALKYNES Sem 1: 2011/2012 Khadijah Hanim bt Abdul Rahman

ALKYNES Sem 1: 2011/2012 Khadijah Hanim bt Abdul Rahman
205 Chapter 9: Alkynes 9.1: Sources of Alkynes (please read) 9.2: Nomenclature Systematic Nomenclature: Prefix-Parent-Suffix Naming Alkynes: Suffix: -yne.

205 Chapter 9: Alkynes 9.1: Sources of Alkynes (please read) 9.2: Nomenclature Systematic Nomenclature: Prefix-Parent-Suffix Naming Alkynes: Suffix: -yne.
10-1 10 Organic Chemistry William H. Brown & Christopher S. Foote.

Organic Chemistry William H. Brown & Christopher S. Foote.
Organic Chemistry, 6th Edition L. G. Wade, Jr.

Organic Chemistry, 6th Edition L. G. Wade, Jr.
Alkynes  Nomenclature  Physical Properties  Synthesis  Reactions.

Alkynes  Nomenclature  Physical Properties  Synthesis  Reactions.
Physical and Chemical Properties and Reactions of Alkenes and Alkynes CHAPTER NINE TERRENCE P. SHERLOCK BURLINGTON COUNTY COLLEGE 2004 CHE-240 Unit 3.

Physical and Chemical Properties and Reactions of Alkenes and Alkynes CHAPTER NINE TERRENCE P. SHERLOCK BURLINGTON COUNTY COLLEGE 2004 CHE-240 Unit 3.
Alkynes.

Alkynes.
Alkynes. C n H 2n-2 C 2 H 2 H:C:::C:H H—C  C—H sp => linear, 180 o acetylene ethyne C 3 H 4 CH 3 C  CH methylacetylene propyne.

Alkynes. C n H 2n-2 C 2 H 2 H:C:::C:H H—C  C—H sp => linear, 180 o acetylene ethyne C 3 H 4 CH 3 C  CH methylacetylene propyne.
1 2015-1436. Learning Objectives Chapter three discusses the following topics which have to be understood and memorized :   The structure, hybridization.

Learning Objectives Chapter three discusses the following topics which have to be understood and memorized :   The structure, hybridization.
Alkynes Lec.6. Hydrocarbons that contain a carbon–carbon triple bond are alkynes. General formula is C n H 2n-2 and for cyclic alkyne is C n H 2n-4 Alkynes.

Alkynes Lec.6. Hydrocarbons that contain a carbon–carbon triple bond are alkynes. General formula is C n H 2n-2 and for cyclic alkyne is C n H 2n-4 Alkynes.
By: Dr. Shatha Alaqeel 1.  The alkynes comprise a series of carbon and hydrogen based compounds that contain one triple bond. This group of compounds.

By: Dr. Shatha Alaqeel 1.  The alkynes comprise a series of carbon and hydrogen based compounds that contain one triple bond. This group of compounds.
Unsaturated Hydrocarbons

Unsaturated Hydrocarbons
Alkynes. Hydrocarbons with a carbon–carbon triple bond are alkynes. Noncyclic alkynes have the molecular formula C n H 2n-2. Acetylene (HC≡ CH) is the.

Alkynes. Hydrocarbons with a carbon–carbon triple bond are alkynes. Noncyclic alkynes have the molecular formula C n H 2n-2. Acetylene (HC≡ CH) is the.
Introduction Alkynes contain a triple bond. General formula is CnH2n-2

Introduction Alkynes contain a triple bond. General formula is CnH2n-2
Dr Manal F. AbouTaleb Alkynes .1 Introduction

Dr Manal F. AbouTaleb Alkynes .1 Introduction
CH 8 Alkynes: An Introduction to Organic Synthesis

CH 8 Alkynes: An Introduction to Organic Synthesis
ORGANIC CHEMISTRY 171 Section 201. Alkynes Hydrocarbons that contain carbon-carbon triple bonds Acetylene is the simplest alkyne. Our study of alkynes.

ORGANIC CHEMISTRY 171 Section 201. Alkynes Hydrocarbons that contain carbon-carbon triple bonds Acetylene is the simplest alkyne. Our study of alkynes.

Similar presentations

Ads by Google