Objective 11. Apply Reactivity Principles to Substitution and Elimination Reactions: compare size and strength of nucleophile to predict major product

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Objective 11 Apply Reactivity Principles to Substitution and Elimination Reactions: compare size and strength of nucleophile to predict major product

Given Reactants ----> Predict Products How to figure out how reactants react. Problem Solving Strategy / Protocol / Sequence of Steps: Identify functional group. What reaction type occurs with this functional group? H + transfer ROH RX Substitution/Elimination At what atom does this reaction type occur? H acid O base α-c β-c What reagent is needed for this reaction type to occur? base acid nucleophile

Summary of Functional Group Reactions: (so far) 4 Reaction 1 2 3 4 Reaction Type (Substitution/Elimination) Reaction Conditions

β carbon α carbon Leaving group Intro to Reactivity: A nucleophile (Nu: - ) can react with the: a. α carbon TRUE FALSE b. β carbon TRUE FALSE c. Br TRUE FALSE d. H bonded to α carbon TRUE FALSE e. H bonded to β carbon TRUE FALSE

β carbon α carbon Leaving group Intro to Reactivity: A nucleophile (Nu: - ) can react with the: 1. α carbon (carbon bonded to the Br) = Substitution Reaction 2. H bonded to β carbon (H bonded to the carbon adjacent to the α carbon = Elimination Reaction

Substitution and Elimination Reactions: Similar: Involve a Nucleophile and Leaving Group Different: Nu: - Reacts at Different Atom 1. Circle the atoms at which a reaction occurs in the reactant (substrate). 2. a. What type of reaction is A? Use curved arrows to show reaction. b. What type of reaction is B? Use curved arrows to show reaction.

What Ingredients are Needed for a Substitution or Elimination Reaction? OH Br NaBr H 2 SO 4 HBr Nu: - = NH 3, CH 3 OH LG Place each ingredient in the right place. Draw the structure of each reactant and product.

Objective: 1. Identify the β carbon in reactant. 2. Predict the Substitution and Elimination products of this reaction: Br NaOH

Objective: Which product, substitution or elimination, is the major product? Why? NaOH Br OH + Substitution Elimination

Substitution and Elimination Reactions Compete for Nu: - Substrate: H-C-C-LG Leaving Group in red Substitution: Nu: - reacts at α -C. Elimination: Nu: - reacts at H bonded to β -C. Factors: Type of C (1 o, 2 o, 3 o ) bonded to LG Reactivity of α -C vs. H bonded to β -C Access to α -C by Nu: - Access to H bonded to β -C by Nu: - Nu: - : Size and Strength Good or poor LG W H O W I N S?

Elimination is Usually Favored Over Substitution Characteristic reactions of alkyl halides with Lewis bases is elimination. (Carey, 8th ed., p. 344) 2 o and 3 o R-X + strong base favor elimination. 1 o R-X + small, strong bases (e.g., NaOEt) favor substitution. 1 o R-X + large, strong bases (e.g., NaO-t-Bu) favor elimination. As crowding at the carbon that bears the leaving group decreases, the rate of nucleophilic substitution becomes faster than the rate of elimination. (Carey, 8th ed., p. 344) 1 o and 2 o R-X + weak base favor substitution. Weak Base is a base weaker than OH -. A second factor that can tip the balance in favor of substitution is weak basicity of the nucleophile. (Carey, 8th ed., p. 345) 3 o R-X without anionic base favor substitution. Use solvent as Nu: -. Usually substitution predominates over elimination in 3 o R-X only when anionic Lewis bases are absent. (Carey, 8th ed., p. 345)

Nucleophile Strength, Carey, Organic Chemistry, 8 th ed., p. 333, Table 8.4 Reactivity Class Nucleophile Reactivity Very Good I -, HS -, RS - > 10 5 Good Br -, OH -, RO -, CN -, N 3-10 4 Fair NH 3, Cl -, F -, RCO 2-10 3 Weak H 2 O, ROH 1 Very Weak RCO 2 H 10-2 Nu: - strength matches Base strength except for I -, Br -, Cl -, F -. a. Which Nu: - are big? Which Nu: - are small? (Hint: See R group) b. Which Nu: - favors substitution? c. Which Nu: - favors elimination?

Leaving Groups, Carey, Organic Chemistry, 8 th ed., p. 348, Table 8.9 Excellent TsO -, NH 3 Very Good I -, H 2 O Good Br - Fair Cl - Poor F - Very Poor OH -, NH 2-, RO - Best LG are weak bases. How does a LG affect reaction rate? Another way to make -OH into a better LG:

1. If a Nu: - has equal access to a α-c or H bonded to a β-c, it will react at the: a. α-c b. H bonded to a β-c 2. The α-c is electrophilic than a H bonded to a β-c. a. More b. Less c. Same 3. A weak Nu: - reacts at the: a. α-c b. H bonded to a β-c 4. A large Nu: - reacts at the: a. α-c b. H bonded to a β-c

1. If a Nu: - has equal access to a α-c or H bonded to a β-c, it will react at the: a. α-c See Question 2 b. H bonded to a β-c 2. The α-c is electrophilic than a H bonded to a β-c. a. More b. Less c. Same 3. A weak Nu: - reacts at the: a. α-c See Question 2 b. H bonded to a β-c 4. A large Nu: - reacts at the: a. α-c b. H bonded to a β-c Easier access

Objective: Which product, substitution or elimination, is the major product? Why? NaOH Br OH + Substitution Elimination 1-bromobutane = 1 o RX major minor OH - = strong base (Nu: - ) product product

Objective: Predict the Substitution and Elimination products of each reaction: Predict the product distribution in each reaction. In other words, does more substitution product form or more elimination product or the same amount of each.

Determine R-X type. ID the nucleophile as big or small, strong or weak. Predict the substitution product and elimination product. Which product is the major product? Why?

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