Nucleophilic Substitution

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Presentation transcript:

Chapter 6: Organic Halogen Compounds; Substitution and Elimination Reactions

Nucleophilic Substitution Examples of nucleophilic substitution reactions Nucleophile Substrate Leaving group

Reaction of sodium ethoxide with bromoethane

Nucleophilic Substitution Mechanism SN2 Mechanism

SN2 displacement reactions occure with inversion of configuration SN2 displacement reactions occure with inversion of configuration. For example, if we treat (R)-2-bromobutane with sodium hydroxide, we obtain (S)-2-butanol

Example; Predict the product of the SN2 reaction of cis-4-methylcyclohexyl bromide with cyanide ion

Arrange the following compounds in order of decreasing SN2 reactivity toward sodium ethoxide

The SN1 Mechanism

Which of the following bromides will react faster with methanol (via SN1 reaction)? and what are the reaction products in each case.

SN2 reactions in Nature: Biological Methylations

HO- > HOH RS- >RSH RO- > ROH 1. Negative ions are more nucleophilic, or better suppliers, than the corresponding neutral molecules. HO- > HOH RS- >RSH RO- > ROH 2. Elements low in the periodic table tend to be more nucleophilic than elements above them in the same column HS- > HO- I- > Br- > Cl- > F- 3. Across a row in the periodic table, more electronegative elements (the more tightly an element holds electron to itself) tend to be less nucleophilic.

Which mechanism, SN1 or SN2, would you predict for each of the following reactions?

Dehydrohalogenation, and Elimination Reaction; The E2 and E1 Mechanisms

E1 mechanism

Substitution and Elimination in Competition Tertiary Halides

Primary Halides

Ethoxide t-butoxide

Secondary Halides

Polyhalogenated Aliphatic Compounds

Chlorofluorocarbons (CFCs aka Freons)

Halons CBrClF2 Bromochlorodifluoromethane (Halon-1211) CBrF3 Bromotrifluoromethane Halon-1301