Halogenoalkanes or alkyl halides

1. Halogenoalkanesor alkyl halides

2. Sites: • http://brakkeibchem.wikispaces.com/file/view/T10D08+-+10.28.11+-+10.5-6+Halogenalkanes+Sn1+Sn2.pdf • Animation: • http://www.rod.beavon.clara.net/SN2.htm

3. Halogenoalkanes contain F, Cl, Br, I bonded to an alkyl group. CH3CH2F CH3CH2Cl CH3CH2Br CH3CH2I Bond C-F C-Cl C-Br C-I Bond Enthalpy 484 338 276 238 (kJmol-1 )

5. Primary,Secondary,TertiaryHalogenoalkanes Primary halogenoalkanes: In a primary halogenoalkane, the carbon which carries the halogen atom is only attached to one other alkyl group.

6. Secondary: Tertiary:

7. HALOGENOALKANES UNDERGO SUBSTITUTION. • NUCLEOPHILIC SUBSTITUTION

8. Nucleophile • A nucleophile is a species (an ion or a molecule) which is strongly attracted to a region of positive charge in something else. • Nucleophiles are either fully negative ions, or have a lone pair of electrons. Common nucleophiles are hydroxide ions, cyanide ions, water and ammonia.

9. SUBSTITUTION NUCLEOPHILIC BIMOLECULAR – sn2 Primary halogenoalkanes undergo SN2: Because the mechanism of the reaction involves 2 species, it is known as an SN2 reaction. http://iverson.cm.utexas.edu/courses/310N/ReactMoviesFl05%20/SN2text.html

10. Page 226

11. hydroxide ion with bromoethane - H H - + HO HO Br H C C CH3 H CH3 H - Br Br C CH3 - H OH SN2 Mechanism ethanol SN2 reaction equation S(substitution) 2(species reacting in the slowest step) N(nucleophilic)

14. SN1 – Substitution NucleophilicUnimolecular • (CH3)3CBr + OH- => (CH3)3COH + Br- • 2 bromo 2 methylpropane reacts with warm dilute aqueous sodium hydroxide solution to form the tertiary alcohol. • The rate of reaction shows that the rate depends only on the concentration of the halogenoalkane and does not depend on the concentration of OH-

15. General rule • Primary and secondary halogenoalkanes tend to undergo SN2 reactions • Tertiary halogenoalkanes tend to undergo SN1 reactions SN2 reactivity rates follow the trend:   CH3X > primary > secondary > tertiary Why???? PAGE 227

18. StabilityofCations

19. Alkyl groups tend to push the bonding pair of electrons towards the carbon they are bonded to. • This is known as the positive inductive effect. • The positive charge can be spread over more atoms, increasing the stability of the ion. It will more likely be formed.

20. SN1 x SN2

21. Diagram of common organic reactions • . 21

22. Answers

23. Nucleophilic substitution cyanide ion with iodoethane CH3CH2I (ethanol) + CN-(aq) CH3CH2CN + I- propanenitrile cyanide ion with 2-bromo,2-methylpropane mechanism (CH3)3CBr (ethanol) + CN- (aqueous) (CH3)3CCN + Br- 2,2-dimethylpropanenitrile

25. CN- ion with 2-bromo,2-methylpropane (SN1) CH3 CH3 CH3 - + CN + C C CH3 Br C CH3 CH3 CH3 CH3 CH3 - - Br Br - CN Nucleophilic substitution mechanism SN1 2,2-dimethylpropanenitrile S(substitution) 1(species reactingin the slowest step) N(nucleophilic) reaction equation

26. Elimination

27. Principles of elimination • Elimination of a hydrogen halide produces an alkene • In general, in aqueous solution substitution takes place • In ethanolic solution, elimination takes place

28. Mechanisms • E1 • E2 • The particular mechanism depends on the strength of the base and the environment of the halide atom

29. E2

30. E1