Presentation is loading. Please wait.

Presentation is loading. Please wait.

11.1 Ethers, Sulfides and Epoxides - 11 Structure, nomenclature, properties Ether synthesis - Williamson synthesis ( S N 2 ) H + /ROH addition to olefins.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "11.1 Ethers, Sulfides and Epoxides - 11 Structure, nomenclature, properties Ether synthesis - Williamson synthesis ( S N 2 ) H + /ROH addition to olefins."— Presentation transcript:

1 11.1 Ethers, Sulfides and Epoxides - 11 Structure, nomenclature, properties Ether synthesis - Williamson synthesis ( S N 2 ) H + /ROH addition to olefins (chapt 6) Reactions - acid catalyzed cleavage of ethers ( S N 2/S N 1/E1 ) [oxidation out] Ethers as Protecting Groups (Gps). Epoxides - oxirane nomenclature Preparation: epoxidation, halohydrin Reactions - nucleophilic cleavage ( S N 2/S N 1/E1 ) [sulfides out] Synthesis (continued) [blue - repeat of earlier chemistry] O H CH 3 CH 3 H

2 11.2 Structure - tetrahedral (sp 3 ) oxygen & carbon Ethers, Sulfides and Epoxides - 11 diethyl ether tetrahydrofuran or THF dihydropyran

3 11.3 Nomenclature - ether group is a substituent Ethers, Sulfides and Epoxides - 11 2-cyclopentenol 4-ethoxy-2-cyclopentenol (1S,4R)-4-ethoxy-2-cyclopenten-1-ol

4 11.4 Nomenclature of Ethers trans-2-propoxycyclohexanol 2-methyl-2-methoxypropane (t-butyl methyl ether) OH O H 3 C C H 3 C O CH 3 CH 3

5 11.5 Properties - polar C-O covalent bonds But low dielectric constant Ethers, Sulfides and Epoxides - 11 Hydrogen bond acceptor (Lewis base)

6 11.6 Two ways to prep benzyl ethyl ether Ethers, Sulfides and Epoxides - 11 Williamson ether synthesis S N 2 substitution recall similar problems in chapter 9 (9.46, 9.48 and 9.49)

7 11.7 Two ways benzyl ethyl ether can be prepared Specifically how would each be done? Nucleophic form of the alcohol? Solvent? - alkoxide - polar - aprotic - benzylic substrate Which way should be best? Ethers, Sulfides and Epoxides - 11

8 11.8 Preparation of Ethers O Br + O OCCH 3 CH 3 CH 3 CH 3 Br + CH 3 OCCH 3 CH 3 CH 3 look at Problem 9.49b

9 11.9 H + /ROH addition to olefins, “hydration-like” Ethers, Sulfides and Epoxides - 11 Recall/review addition problems 6.29, 6.34a

10 11.10 Ethers, Sulfides and Epoxides - 11 Reactions - acid catalyzed cleavage of ethers SN2SN2 S N 1/E1

11 11.11 Ethers Protecting Groups Ethers, Sulfides and Epoxides - 11 Problem 6.33: alcohol “interferes” with Br 2 addition.

12 11.12 Ether Protecting Groups Ethers, Sulfides and Epoxides - 11 Problem 6.33: alcohol “interferes” with Br 2 addition. Protecting group (Pg) = blocking group 1 2 3

13 11.13 Protecting group characteristics Ethers, Sulfides and Epoxides - 11 1 2 3 Pg “Requirements” On efficient Inert to rx Off efficient Problem 6.33: alcohol “interferes” with Br 2 addition. Protecting group (Pg) = blocking group

14 11.14 Ethers, Sulfides and Epoxides - 11 TMS ethers trimethylsilyl ether or TMS ether

15 11.15 Crown Ethers - Crown Ethers - not covered Cyclic polyethers The parent name is crown, preceded by a number describing the size of the ring followed by the number of oxygen atoms in the ring, e.g 18-crown-6 O O O O O O

16 11.16 Ethers, Sulfides and Epoxides – Chapter 11 Structure, nomenclature, properties of Ethers Preparation: Ether synthesis – Williamson Synthesis H+/ROH addition to olefins Reactions - acid catalyzed cleavage of ethers Ethers as Protecting Groups (Gps). Epoxides - nomenclature Preparation: epoxidation, halohydrin Reactions - nucleophilic cleavage O H CH 3 CH 3 H

17 11.17 Ethers, Sulfides and Epoxides - 11 Nomenclature - epoxy (substituent) or oxirane 4,5-epoxycycloheptene (ignore - not questioned) (4S,5R)-4,5-epoxycycloheptene oxirane ether special 3-membered ring [  (3S,4S)-2-chloro-3,4-epoxyheptane ]

18 11.18 Ethers, Sulfides and Epoxides - 11 Prep of epoxides/oxiranes

19 11.19 Ethers, Sulfides and Epoxides - 11 Prep of epoxides - better mechanistic view stereospecific like bromine addition

20 11.20 other epoxide sources - halohydrins/base mechanism intramolecular “S N 2” See problem 9.50, same reaction

21 11.21 chapter 6 Other sources of epoxides - halohydrins/base :B

22 11.22 Reactions H + or Lewis Acid Opening B: or Lewis Base Opening of epoxides :

23 11.23 Reactions H + or Lewis Acid Opening of epoxides: mechanism?

24 11.24 Reactions B: or Lewis Base Opening of epoxides: Mechanism?

25 11.25 1,2-transdiol Stereochemistry 1,2-cisdiol Recall:

26 11.26 Regioselectivity 1 o -less hindered 3 o more hindered S N 2 like proton source

27 11.27 Regioselectivity S N 1 like

28 11.28 example epoxyresin

29 11.29 Application of Epoxy Chemistry

30 11.30 amine epoxide Application of Epoxy Chemistry

31 11.31 Application of Epoxy Chemistry

32 11.32 Application of Epoxy Chemistry

33 11.33 Application of Epoxy Chemistry

34 11.34 lithium aluminum hydride like sodium borohydride

35 11.35 O C H H C CH 3 H H

36 11.36 Ethylene Oxide –ethylene oxide is a valuable building block for organic synthesis because each of its carbons has a functional group

Download ppt "11.1 Ethers, Sulfides and Epoxides - 11 Structure, nomenclature, properties Ether synthesis - Williamson synthesis ( S N 2 ) H + /ROH addition to olefins."

Similar presentations

Oxidation-Reduction & Organometallic

Oxidation-Reduction & Organometallic
Alcohols, Ethers and Epoxides

Alcohols, Ethers and Epoxides
Organometallic Compounds Chapter 15. Carbon Nucleophiles: Critical in making larger organic molecules. Review some of the ones that we have talked about….

Organometallic Compounds Chapter 15. Carbon Nucleophiles: Critical in making larger organic molecules. Review some of the ones that we have talked about….
Goals for the day: Grignard Reaction Ethers (Naming and reactions)

Goals for the day: Grignard Reaction Ethers (Naming and reactions)
Chapter 8: Ethers and Epoxides Diethyl ether in starting fluid.

Chapter 8: Ethers and Epoxides Diethyl ether in starting fluid.
Chapter 18: Ethers and Epoxides; Thiols and Sulfides

Chapter 18: Ethers and Epoxides; Thiols and Sulfides
Ethers and Epoxides; Thiols and Sulfides. 2 Symetrical Ethers Diethyl ether prepared industrially by sulfuric acid– catalyzed dehydration of ethanol –

Ethers and Epoxides; Thiols and Sulfides. 2 Symetrical Ethers Diethyl ether prepared industrially by sulfuric acid– catalyzed dehydration of ethanol –
WWU -- Chemistry Nucleophilic Substitution Reactions: Reactions and Synthetic Applications.

WWU -- Chemistry Nucleophilic Substitution Reactions: Reactions and Synthetic Applications.
An alternative to making the halide: ROH  ROTs

An alternative to making the halide: ROH  ROTs
Ethers, Sulfides, Epoxides

Ethers, Sulfides, Epoxides
William H. Brown Christopher S. Foote Brent L. Iverson

William H. Brown Christopher S. Foote Brent L. Iverson
Chapter 14 Ethers, Epoxides, and Sulfides

Chapter 14 Ethers, Epoxides, and Sulfides
Ethers, Epoxides and Thioethers

Ethers, Epoxides and Thioethers
Organic Chemistry Reviews Chapter 11 Cindy Boulton February 8, 2009.

Organic Chemistry Reviews Chapter 11 Cindy Boulton February 8, 2009.
18: Ethers and Epoxides; Thiols and Sulfides

18: Ethers and Epoxides; Thiols and Sulfides
CH 18: Ethers and Epoxides Renee Y. Becker Valencia Community College CHM 2211 1.

CH 18: Ethers and Epoxides Renee Y. Becker Valencia Community College CHM
Very Weak Acid Ionization Constants CH 3 COCH 2 COCH 3 CH 3 NO 2 H 2 O C 2 H 5 OH CH 3 COCH 3 RCCH RCH=CH 2 CH 3 CH 3 COCH - COCH 3 CH 2 – NO 2 OH – C.

Very Weak Acid Ionization Constants CH 3 COCH 2 COCH 3 CH 3 NO 2 H 2 O C 2 H 5 OH CH 3 COCH 3 RCCH RCH=CH 2 CH 3 CH 3 COCH - COCH 3 CH 2 – NO 2 OH – C.
Ethers & Epoxides. Ether Nomenclature Compounds that contain two organic groups attached to an oxygen atom General formula is 1. Common Names – Name both.

Ethers & Epoxides. Ether Nomenclature Compounds that contain two organic groups attached to an oxygen atom General formula is 1. Common Names – Name both.
Ethers Nanoplasmonic Research Group Organic Chemistry Chapter 8 Part I.

Ethers Nanoplasmonic Research Group Organic Chemistry Chapter 8 Part I.
1 Chapter 9 Alcohols, Ethers and Epoxides. 2 Alcohols contain a hydroxy group (OH) bonded to an sp 3 hybridized carbon. Introduction—Structure and Bonding.

1 Chapter 9 Alcohols, Ethers and Epoxides. 2 Alcohols contain a hydroxy group (OH) bonded to an sp 3 hybridized carbon. Introduction—Structure and Bonding.

Similar presentations

Ads by Google