Chapter 8 Outline: Alkenes: Structure and Preparation via β-elimination

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Chapter 8 Outline: Alkenes: Structure and Preparation via β-elimination 1. What is β elimination? 2. Alkenes: structure, steroisomerism and stability 3. Elimination Reactions o E2 Mechanism o E1 Mechanism 4. Substitution vs. Elimination o Identifying the reagent o Identifying the mechanisms o Predicting the products Of course I would want you to do ALL the problems at the end of the chapter, but your doing the following problems would be a good start: 8.50, 8.52, 8.54 58, 8.61 8.63, 8.65 8.69, 8.71, 8.72, 8.75 80, 8.82, 8.84, 8.85, 8.87 Page 1 of 32

1. What is ß elimination? Elimination reactions often compete with substitution reactions. What are the two main ingredients for a substitution? A nucleophile and an electrophile with a leaving group What are the two main ingredients for an elimination? A base and an electrophile with a leaving group. How is a base both similar and different from a nucleophile? Attack at the α carbon Attack at the β hydrogen Page 2 of 32

2. Alkenes: structure, stereoisomerism and stability Alkenes in nature: Why might it be important to know these structures? Page 3 of 32

Alkene are good starting materials Alkenes are also pivotal compounds in the chemical industry. 70 billion pounds of propylene (propene) and 200 billion pounds of ethylene (ethene) are both made from cracking petroleum each year. Page 4 of 32

Alkene Isomerism & Stability Page 5 of 32

Place the following alkenes in order of stability. Rank them in order of 1 5 (1 = most stable; 5 = least stable). If two molecules are equally stable, then indicate this by using equivalent numbers. Indicate if the following double bonds are E, Z or neither (N). Page 6 of 32

Alkenes & Physical Properties Saturated fats = animal products Polyunsaturated fats = vegetable products What is the difference between oils and fats with respect to fats? Why are trans fatty acids bad for you? Page 7 of 32

3. Elimination Reactions: Preparation of Alkenes Recall the four mechanistic steps we learned in Chapter 7: Nucleophilic attack Loss of a leaving group Proton transfer Rearrangement Elimination reactions use these same steps and may be concerted (onestep) or two step; which is demonstrated below? What is the rate law? Is this reaction E1 or E2? Page 8 of 32

E2 Mechanism The kinetics of E2 and S N 2 are quite similar. WHY? However, tertiary substrates are unreactive toward S N 2 while they react readily by E2. WHY? 3 substrates are more reactive toward E2 than are 1 substrates even though 1 substrates are less hindered. The 3 substrate should proceed through a more stable transition state (kinetically favored) and a more stable product (thermodynamically favored). Page 9 of 32

E2 Mechanism How would both the transition state energy and the product energy be different if the substrate were 1? Page 10 of 32

E2 Mechanism: regioselectivity If there are multiple reactive sites or regions on a molecule, multiple products are possible. What is the relationship between the alkene products? REGIOSELECTIVITY occurs when one product is formed predominantly over the other. Page 11 of 32

E2 Mechanism Good sterically hindered, non nucleophilic bases: Is the Zaitsev product kinetically favored, thermodynamically favored, or both? Page 12 of 32

Draw ALL elimination products expected for the following reactions. Circle the major product if more than one product is formed. Page 13 of 32

Elimination by E2 Stereoselectivity Page 14 of 32

E2 Mechanism What is the difference between STEREOSELECTIVE and STEREOSPECIFIC? What product will be formed via elimination? What factors dictate when there are more than proton to abstract? Page 15 of 32

E2 mechanisms with chair conformations Which of the two possible chair conformations will allow for the elimination to occur? Which of the two molecules below will NOT be able to undergo an elimination reaction? WHY? Page 16 of 32

Elimination by E2 Draw all the possible products and circle the most stable: Work with your neighbor and provide products for the following: NaOEt Cl NaOtBu Page 17 of 32

E1 Mechanism Page 18 of 32

E1 Mechanism How does the substrate reactivity trend for E1 compare to the trend we discussed in Chapter 7 for S N 1? WHY? Page 19 of 32

E1 Mechanism Because E1 and S N 1 proceed by the same first step, their competition will generally result in a mixture of products. How might you promote one reaction over the other? Page 20 of 32

E1 Mechanism Page 21 of 32

Provide the mechanism for the following reaction: What other product(s) is (are) possible? Page 22 of 32

Page 23 of 32

For the following reaction, indicate which reaction mechanism (i.e. write E1 and/or E2 in the blank below) the following observations would support. Br NaOCH 3 A. the reaction rate increased when the [Base] was increased B. the reaction rate decreased when the [RX] was decreased C. the reaction showed a rearranged product D. the reaction showed more than one product E. the reaction rate decreased when the LG was changed to Cl F. the product was the least substituted alkene G. the product was an alkene Page 24 of 32

Substitution vs. Elimination Substitution and elimination are almost always in competition. 1. Determine the function of the reagent. Is it more likely to act as a base, a nucleophile, or both? Kinetics control nucleophilicity. WHY? HOW? Thermodynamics control basicity. WHY? HOW? 2. Analyze the substrate and predict the expected mechanism (S N 1, S N 2, E1, or E2). 3. Consider relevant regiochemical and stereochemical requirements. Page 25 of 32

1. Determine the function of the reagent: assess the strength of a nucleophile: The greater the negative charge, the more nucleophilic it is likely to be. The more polarizable it is, the more nucleophilic it should be. The less sterically hindered it is, the more nucleophilic it should be. WHY? The weaker the reagent, the more likely it is to promote S N 1 or E1. WHY? Page 26 of 32

2. Determine the function of the reagent: assess the strength of a base: Assess the strength of its conjugate acid quantitatively using the pk a of its conjugate acid. Which is a stronger base, Cl or HSO 4? Are Cl and HSO 4 relatively strong or weak? Which is a stronger base, Cl or CH 3 O? Compare CH 3 OH and CH 3 NH 2. Reagents that act only as nucleophiles are highly polarizable and/or they have very strong conjugate acids. Why are DBN and DBU especially stable bases? Page 27 of 32

Predicting reactions: Page 28 of 32

Page 29 of 32

The following substrate below will undergo both substitution and elimination under certain conditions. Circle the correct expectation for each reagent, indicating substitution (S), both with preference for substitution (B/S), both with a preference for elimination (B/E), or solely elimination (E). Page 30 of 32

Provide viable step by step mechanisms using correct mechanistic arrows: CH 3 OH Mechanism? Br Page 31 of 32

Predict the products for the following reaction: OH Conditions? Page 32 of 32

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