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Ethers and Epoxides Chem 145 Chapter

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1 Ethers and Epoxides Chem 145 Chapter 8 1434-1435 2013-2014
2nd semester

2 Chapter’s out line Ethers Cyclic Ethers; “Epoxides”
Definition; General formula; Classification and Types Nomenclature - Common Names. - IUPAC Naming. Physical Properties General methods of preparation of ethers A- Dehydration of Alcohols. B- Williamson Synthesis. Reactions of ethers Cyclic Ethers; “Epoxides” Definition General methods of preparation of Epoxides Reaction of Epoxides.

3 Definition Classification of Ethers
Ether is a class of organic compounds that contain an ether group — (an oxygen atom connected to two alkyl or aryl groups) — of general formula R–O–R’. Classification of Ethers (I) Aliphatic Ethers (II) Aromatic Ethers Aliphatic ethers are those in which R and R' are both alkyl groups. Aromatic ethers are those in which either one or both R and R' are aryl groups. Example: Examples: Methyl phenylether Butylmethylether Diphenylether

4 Nomenclature: A. Common Names.
In the Common system the ethers are named according to the alkyl group bonded to the oxygen atoms. The two-alkyl groups bonded to the functional group (- O -) are written alphabetically followed by the word ether. Examples CH3 - O - C2H5 Ethyl methyl ether Ethyl phenyl ether Diethylether Tert-butylmethyl ether

5 B. IUPAC System For Ethers
The names for ethers are based on the alkane name of the longest chain attached to the oxygen. The shorter alkyl group and the oxygen are named as an alkoxy group attached to the longer alkane. methoxy propane They are named as alkoxyalkanes. Numbering the longer alkane gives CH3—O—CH2—CH2—CH3 1-methoxypropane. alkoxy group Alkyl Group Name Alkoxy Group CH3- Methyl CH3O- Methoxy CH3CH2- Ethyl CH3CH2O- Ethoxy (CH3)2CH- Isopropyl (CH3)2CHO- Isopropoxy (CH3)3C- tert-Butyl (CH3)3CO- tert-Butoxy C6H5- Phenyl C6H5O- Phenoxy

6 Examples 1-Methoxy-2-methyl propane Methoxy cylohexane Propoxy butane
3 2 1 1-Methoxy-2-methyl propane Methoxy cylohexane (c) (d) 1 2 3 4 Propoxy butane 1-Ethoxy-1-methyl Cyclohexane

7 5-ethoxy-2-heptene 1-phenoxy-1-propene Common: Diphenylether Methylphenylether Anisol IUPAC: Phenoxy benzene Methoxy benzene

8 1- Give the name of the following molecules (IUPAC & Common)
Exercise: 1- Give the name of the following molecules (IUPAC & Common) 2- Draw the correct structure for the following A) Methyl vinyl ether B) Methoxy hexane

9 Physical Properties 1. Solubility of Ethers
Ethers containing up to 3 carbon atoms are soluble in water, due to their hydrogen bond formation with water molecules. Ethers can form hydrogen bonds with water molecules The solubility decreases with increase in the number of carbon atoms. The relative increase in the hydrocarbon portion of the molecule decreases the tendency of H-bond formation.

10 O 2. Boiling Points of Ethers
Ethers have an O atom, but there is no H attached. Thus, hydrogen bonds cannot form between ether molecules. O R R’ Ether molecules cannot form hydrogen bonds with other ether molecules. Butane Methoxyethane 1-Propanol (butane) (ethyl methyl ether) (Propyl alcohol) M.W. = 58 M.W. = 60 M.W. = 60 b.p. = °C b.p. = 7.9 °C b.p. = 97.2°C

11 General methods of preparation of ethers
A- Dehydration of Alcohols.(only symmetric ethers) This method is used for industrially preparation for symmetric ethers. In the presence of acid, two molecules of an alcohol may lose water to form an ether. General Equation /140°C Examples

12 B- Williamson Synthesis.
The reaction of a sodium alkoxide; RONa or a sodium phenoxide; ArONa with an alkyl halide to form an ether is known as the Williamson synthesis. - It is an important laboratory method for the preparation of symmetrical and unsymmetrical ethers. - The reaction involves nucleophilic substitution of an alkoxide ion for a halide ion. General Equations Sodium alkoxide Alkyl ether Alkyl halide Sodium phenoxide Aryl ether Alkyl halide

13 Examples Note that ! The alkoxide is commonly made by adding Na or K to the alcohol Examples

14 Reactions of Ethers Cleavage of Ethers by Acides
Ethers undergo just one kind of basic chemical reaction: cleavage by acids. Cleavage of Ethers by Acides Ethers are cleaved by HX to an alcohol and a haloalkane. General Equation Ether Conc. acid Alkyl halide alcohol Specific Example Dimethyl ether Hydrogen bromide Methyl bromide Methyl alcohol

15 Note: If two or more equivalents of acid are used further dehydration can occur on formed alcohols which may react further to form a second mole of alkyl halide. Example Diethyl ether Excess Hydrogen bromide Ethyl bromide

16 Cyclic Ethers; “Epoxides”

17 Definition Epoxides Epoxides or Cyclic ethers
An epoxide Epoxides are cyclic ethers in which the ether oxygen is part of a three-membered. The simplest and the most important epoxide is ethylene oxide. Ethylene oxide

18 General methods of preparation of Epoxides
Peroxide Epoxidation Epoxides are often prepared from reacting with organic peroxy acids (“peracids”) ex; CH3C(O)OOH in a process called epoxidation. General equation Peroxy acid Epoxide MCPBA Note that: MCPBA=

19 Example propene propeneoxide

20 Reaction of Epoxides Ring-opening reactions of epoxides:
Epoxides are highly strained and easily undergo ring-opening reactions under both acidic and basic conditions. For the same reason epoxides have the tendecy to open up its ring. Thus oxygen atom combines with the reactive hydrogen atom of vairous compounds to form a hydroxy group, -OH, as shown in the next slide. General Equation Ethylene oxide Addition Product

21 Reaction of Epoxides. + 1,2-Ethandiol 2-Methoxyethanol
Ethylene halohydrin 2-Halo ethanol Ethylene oxide Alkyl alcohol

22 Thank you For your attention

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